651 Abaqus Jobs - Page 2

Role Purpose The purpose of this role is to design, develop and troubleshoot solutions/ designs/ models/ simulations on various softwares as per clients/ project requirements Do 1. Design and Develop solutions as per clients specifications Work on different softwares like CAD, CAE to develop appropriate models as per the project plan/ customer requirements Test the protype and designs produced on the softwares and check all the boundary conditions (impact analysis, stress analysis etc) Produce specifications and determine operational feasibility by integrating software components into a fully functional software system Create a prototype as per the engineering drawings & outline CAD model is prepared Perform failure effect mode analysis (FMEA) for any new requirements received from the client Provide optimized solutions to the client by running simulations in virtual environment Ensure software is updated with latest features to make it cost effective for the client Enhance applications/ solutions by identifying opportunities for improvement, making recommendations and designing and implementing systems Follow industry standard operating procedures for various processes and systems as per the client requirement while modeling a solution on the software 2. Provide customer support and problem solving from time to time Perform defect fixing raised by the client or software integration team while solving the tickets raised Develop software verification plans and quality assurance procedures for the customer Troubleshoot, debug and upgrade existing systems on time & with minimum latency and maximum efficiency Deploy programs and evaluate user feedback for adequate resolution with customer satisfaction Comply with project plans and industry standards 3. Ensure reporting & documentation for the client Ensure weekly, monthly status reports for the clients as per requirements Maintain documents and create a repository of all design changes, recommendations etc Maintain time-sheets for the clients Providing written knowledge transfer/ history of the project Mandatory Skills: Data Build Tool . Experience: 3-5 Years .

Job Requirements Performing linear and nonlinear structural analysis using ANSYS Mechanical (APDL) with minimal supervision Learn, understand, and develop run scripts using APDL for different types of structural analysis. Developing APDL macros to reduce time in pre & post processing in ANSYS. Analysis review document preparation and presenting it to the reviewers during Toll Gate reviews. Following Internal review process Participating in the status meeting and communicating with the clients as and when required. Maintaining 100% OTD and FTY=1 Work Experience Must have 2+ years of experience in FE Analysis using ANSYS Classic Should have Good Knowledge in Linear & Non-Linear Static, Dynamic, and Thermo-mechanical analysis involving Materials, Geometric & Contact Non-linearity’s in ANSYS. Should be Good in hand calculations, Verification & interpretation of FE Results Should have good exposure to Fatigue analysis & Creep calculations. Experience in SIESTA tool will be a plus. Experience in NX UG tool will be a plus. Desired Tool Skills: ANSYS APDL HYPERMESH SIESTA

Why Join Siemens Siemens Energy is focused on helping customers navigate the world's most pressing energy problems. As a world leader in developing and producing the most advanced engineering technologies, we improve lives and further human achievements worldwide, while also protecting the climate - all thanks to our employees. With us, you can do something significant that benefits society and human progress As Siemens Energy, We energize society by supporting our customers to make the transition to a more sustainable world, based on innovative technologies and our ability to turn ideas into reality. We do this by: . Expanding renewables . Transforming conventional power . Strengthening electrical grids . Driving industrial decarbonization . Securing the supply chain and necessary minerals Key Responsibility Able to conduct FE Analysis e.g. static, transient, linear, nonlinear, fatigue (LCF/HCF), thermal analyses as per requirements. Perform high temperature creep calculation and assessment. Interpret results, provide design change solutions, and optimize the design. Participate and conduct structural integrity design review at component level. Prepare and document FE calculation in the form of structural integrity design report. Ideal Candidate Profile Good understanding of mechanical engineering principles. Good knowledge in turbine design and manufacturing. Strong understanding of FEA principles and methods. Experience with FEA software (e.g., ANSYS, ABAQUS) is preferred but not required. Ability to work independently and as part of a team. Excellent problem-solving and analytical skills. We've got quite a lot to offer. How about you We're Siemens. A collection of over 379,000 minds building the future, one day at a time in over 200 countries. We're dedicated to equality, and we welcome applications that reflect the diversity of the communities we work in. All employment decisions at Siemens are based on qualifications, merit and business need. Bring your curiosity and imagination and help us shape tomorrow.

Why Join Siemens? Siemens Energy is focused on helping customers navigate the world’s most pressing energy problems. As a world leader in developing and producing the most advanced engineering technologies, we improve lives and further human achievements worldwide, while also protecting the climate - all thanks to our employees. With us, you can do something significant that benefits society and human progress As Siemens Energy, "We energize society" by supporting our customers to make the transition to a more sustainable world, based on innovative technologies and our ability to turn ideas into reality. We do this by: Expanding renewables Transforming conventional power Strengthening electrical grids Driving industrial decarbonization Securing the supply chain and necessary minerals Key Responsibility Able to conduct FE Analysis e.g. static, transient, linear, nonlinear, fatigue (LCF/HCF), thermal analyses as per requirements. Perform high temperature creep calculation and assessment. Interpret results, provide design change solutions, and optimize the design. Participate and conduct structural integrity design review at component level. Prepare and document FE calculation in the form of structural integrity design report. Ideal Candidate Profile Good understanding of mechanical engineering principles. Good knowledge in turbine design and manufacturing. Strong understanding of FEA principles and methods. Experience with FEA software (e.g., ANSYS, ABAQUS) is preferred but not required. Ability to work independently and as part of a team. Excellent problem-solving and analytical skills. We’ve got quite a lot to offer. How about you? We’re Siemens. A collection of over 379,000 minds building the future, one day at a time in over 200 countries. We're dedicated to equality, and we welcome applications that reflect the diversity of the communities we work in. All employment decisions at Siemens are based on qualifications, merit and business need. Bring your curiosity and imagination and help us shape tomorrow.

Responsible for performing structural analysis of aircraft components, assemblies, and systems while working as a coordinated team Structural analysis includes calculation of loads, Static analysis, Fatigue analysis, Damage-Tolerance analysis, and Vibration analysis Evaluate structural integrity of aircraft components by way of classical hand calculations and, finite element method Generate documentation to report analysis and, test results to support certification/qualification Support Gated Reviews to validate the quality and completeness of work packages Familiar with regulatory framework (FAA and Mil-Spec), for warranting safety and regulatory compliance

Job Description Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Fatigue & Damage Tolerance F&DT Good to have skills : NA Minimum 5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Execution of comprehensive fatigue and damage tolerance analysis for metallic and composite structural parts related to design and development of rotary wing aircrafts primary and secondary structures. Provide execution insight and facilitate the team with interpretation of static analysis results for defining the fatigue critical location, number of calculation points, fatigue sensitive area, primary and secondary load path identification, design philosophy identification, scatter factor selection in alignment with client and regulatory guidelines FAR/CS 25.571, 29.571, MIL-STD-1530 etc. Understand the meshing and analysis guidelines for static and fatigue analysis and ensure the FE models created by team for F&DT justifications are compiled to the guidelines and are of high quality. Ensure that the V&V documents capture the required checks for the FE models. Also ensure the specific considerations for the fatigue evaluation is correctly captured and simulated in the FE models and if required use your expertise and guidance to align with the requirements. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Identify the fatigue critical locations based on highly stressed areas from static analysis results, safety critical parts and the standard features which irrespective of stress value need to be checked. Down select the number of calculation points and align with the client on this. Decision basis for selection of reliable concepts out of multiple concepts based on the static and F&DT justification validations and compliance including future operational and maintenance and repair considerations. Enable F&DT team with expertise for generation of fatigue test plan (full scale and component level test), interpretation of test results and correlation with analysis in the test report. Review the outputs. Level II checker approver signatory for F&DT analysis certification reports, F&DT test plan, test orders and F&DT test reports. Enable team engagements and knowledge sharing for distributed teams across the programs and locations. Technically lead and guide the team for mitigating the low fatigue and crack growth life and F&DT performance non-compliance issues based on your expertise and experience. Align these methods with clients and document it as reference documents. Incorporate features and design aspects covering the downstream manufacturing and inspection processes, accessibility and in-service replacement/repair. Technically lead for aligning customer expectations with engineering deliverables and strategic goals. Collaborate and lead cross-functionally with design manufacturing quality, and systems teams. Technical interface with the client, ensuring timely issue resolutions, aligning design mitigations and any deviations needed w.r.t processes, methods, inputs, and deliverables. Professional & Technical Skills:Expertise and work experience in the design/development and integration of metallic, sheet metal, and composite helicopter aircraft structures for both primary and secondary components from F&DT point of view. Experience of implementing the weight optimization techniques, load path optimization, fatigue and damage tolerance analysis for helicopter/aircraft certification and testing activities. Knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of F&DT test plan, test orders, test load derivation and test to analysis correlation reports for component level and full-scale structural tests for rotary wing aircrafts. Exposure to certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with drawing standards. Any experience in process automation using MS excel VBA/Python etc Proficient in FEA and F&DT tools is essential with experience in NASGRO FRANC 3D MSC FATIGUE, MSC NASTRAN/PATRAN, HyperMesh/Optistrucut. or similar tools is a strong plus. Automation experience using Excel MACROS & VBA Python and CATIA V5 is a plus. Proven experience for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Working experience related to aircraft materials, fatigue phenomenon, fracture mechanics concepts, fatigue spectrum derivation, probabilistic fatigue and crack growth assessments. Sound knowledge of primary and secondary load paths, structural classification and their relevance for the F&DT justification. Expertise in structural classification, related F&DT compliance, calculation points and their down selection, selection of scatter factors. Deep knowledge of FEA considerations and their incorporation in the meshing requirements for F&DT Analysis. Experience in end-to-end concept to design validation, manufacturability, certification and F&DT certification test and test correlation activities for preferably rotary wing aircraft helicopter certification. In-depth understanding of helicopter/aircraft load-bearing structures, structural response with focus on structural integrity, stiffness, and load path optimization under both static and Fatigue conditions. Knowledge of failure modes relevant to metallic and composite airframe components. Experience for low cycles and high cycle fatigue analysis for fixed wing or rotary wing aircrafts. Exposure to functional considerations like telescopic, foldability swivel and reversal of structure. Any specialization/certification in F&DT/Fracture mechanics/fatigue life extension etc will be a plus. Additional Information:- The candidate should have 9 to 12 years of practical experience in the Aerostructures fatigue and damage tolerance analysis domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

Job Description Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Good to have skills : NA Minimum 5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Design and develop primary and secondary structural componentsboth metallic and compositefor rotary-wing aircraft, ensuring compliance with airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Understand the meshing and analysis guidelines for static, dynamic and impact analysis and ensure the FE models created by team are complied to the guidelines and are of high quality. Ensure that the V&V documents capture the required checks for the FE models. Also ensure the physics of the problem is correctly simulated in the FE models and if required use your expertise and guidance to align with the requirements. Ensure alignment and compliance to the client specific and regulatory guidelines as per FAR 27/29CS/JAR/Military MIL-STD-1530 etc Enable team engagements and knowledge sharing for distributed teams across the programs and locations. Validate the design of structural through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection based on Analysis results and operational design environmental conditions. Owning optimum design by static stress analysis Dynamic analysis and impact analysis evaluation of multiple structural design concepts through detailed trade-off analyses. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Perform weight estimation, its tracking, and control across all design phases, ensuring alignment with weight budgets and performance criteria. Technically lead and guide the team for mitigating the low RF Low life and performance non-compliance issues. Create the test FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Creating the method register, Method document, check lists and report templates in compliance with regulatory and client specific requirements. Front end and act as the technical interface with the client, ensuring alignment on deviations and processes, methods, inputs, overall objectives and deliverables. Interact with clients on a regular basis to track and classify the issues and ensure timely resolution of the issues as per SLA. Assist in during customer technical audits, program quality gate reviews, and change control reviews. Support and mentor junior team members by providing technical guidance, sharing best practices, and fostering their growth in design methodologies, tools, and domain knowledge. Actively contributes to skill development, knowledge transfer, and team capability building through hands-on support and constructive feedback. Professional & Technical Skills:Expertise in the design/development and integration of metallic, sheet metal, and composite helicopter aircraft structures for both primary and secondary components from Static point of view. Experience of static dynamic and impact analysis for sizing of large, fixed wing or rotary wing aircraft. Experience in weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Any experience in process automation using MS excel VBA/Python etc Strong knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with GD & T and drawing standards. Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Automation experience using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analyses. End to end validation, certification compliance, manufacturing support and certification test & test correlation activities specifically for rotary wing aircraft helicopter. High level skills and experience in the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Experience of aerospace material selection, structural feature simulation, analyses and meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis and post processing of Analysis results. Sound knowledge of helicopter/aircraft load-bearing structures, with focus on structural integrity, stiffness, and load path optimization under both static, dynamic, and impact conditions. Familiarity with Fatigue requirement is plus. High experience aligned with the rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Strong awareness of static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Introductory knowledge about the analysis considerations for the any of the Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Expertise for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Familiar with structural analysis considerations related to assembly line constraints, ergonomic considerations, and sequence planning to ensure seamless integration in high-rate production environments. Additional Information:- The candidate should have a 8 to 9 years of practical experience static analysis/Dynamic analysis/ Impact Analysis in the Aerostructures domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. - This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

We are part of a world-class product development organization that pioneers industry-leading hardware designs for IBM POWER Systems servers as well as Storage, Quantum, and IBM Research. Within this organization, the IBM mechanical design team is seeking a professional with experience in Finite Element Analysis (FEA) modeling to complement the design team in designing next generation computers. Challenges of high performance and high reliability server solutions include high density designs with complex system requirements that require creative solutions from our mechanical design team to optimize system designs. The candidate will work in a multi-functional environment where the requirements of thermal, acoustics, electro-magnetic-compatibility (EMC), structural integrity, safety, industrial design, cost, performance, and functionality must all be satisfied to deliver a final solution. Working with a focused team, the candidate will develop the product design from concept through product release. Primary responsibilities will be to specify IBM Appliance product configurations composed of compute servers, storage drawers, networking switches, and cabling to enable worldwide fulfillment and shipping to external clients. Required education Bachelor's Degree Preferred education Master's Degree Required technical and professional expertise Bachelor of Science in Mechanical Engineering or equivalent program 3 years engineering experience Experience with FEA software, ANSYS and LS-DYNA preferred. Experience with Computer Aided Design (CAD) tools; Solidworks Preferred Strong Knowledge of solid mechanics, materials, strength of materials, and material behavior. Familiarity with part design using sheetmetal, plastic, die-cast, machining, 3D printing, and finishes Experience with Microsoft Excel, PowerPoint, and Word Self-starter, self-motivated, and able to independently drive tasks to completion Must be effective working in a team-based atmosphere Preferred technical and professional experience Prefer 5 years engineering experience Masters degree or higher in applicable engineering discipline Basic understanding of server and computer architecture Strong and effective soft skills including verbal and written communication, problem solving/critical thinking, time management, and being a team player

POSITION : MGR I R&D/PRODUCT DVL ENGINEERING LOCATION BANGALQORE BU Industrial Segment - Aerospace Defense & Marine BU COMPANY TE Connectivity Ltd. is a $16.2 billion global technology and manufacturing leader creating a safer, sustainable, productive, and connected future. For more than 75 years, our connectivity and sensor solutions, proven in the harshest environments, have enabled advancements in transportation, industrial applications, medical technology, energy, data communications, and the home. With 80,000+ employees, including more than 8,000 engineers, working alongside customers in approximately 140+ countries, TE ensures that EVERY CONNECTION COUNTS. Learn more at www.te.com Role Description: Responsible to manage FEA tasks and provide suitable design recommendations to validate the design virtually. Responsibilities: Formulate strategy / road map for Simulation team. Manages a portfolio of new and on-going projects, using good project management skills. Evaluate mechanical and thermal performance of product designs and processes Analyzing stress and deformation in products, based on FEM Designing, modelling and simulating mold designs, including cooling, for TE factories and NPD engineers Proposing SW integration projects to create multi-physical models that target TE product design needs Managing outsourced SW development projects related to the above Develops proposals for new projects and enhanced TE modelling and simulation capabilities Creates awareness across TE of the modelling and simulation capabilities. Works with local, and regional, TE sites and external customers to address urgent or strategic needs Skill Set and Profile: Minimum 15+ years of experience in the field of Finite element simulations. Sound knowledge on ANSYS workbench in Structural and Thermal simulations is a must. Knowledge on LS-Dyna, Simufact or Moldflow will be an added advantage Should know the basics of FEA and able to create hand calculation to verify the designs. Correlation of FEM results to Lab reports Should have knowledge on Plastics manufacturing processes. Highly motivated to be a good team player Fluent in English both written and spoken; additional knowledge of another language (e. g. German, French) is an advantage Excellent interpersonal and communication skills Culturally sensitive Qualification & Experience: B.E / B.Tech in Mechanical Engineering M.E. (Mechanical / Polymers / Plastic technology) will be added advantage MOTIVATIONAL/CULTURAL FIT Innovation demeanor Problem solving Passion for technology Talent development Results driven Clear and concise communication TE Connectivity is a global industrial technology leader creating a safer, sustainable, productive, and connected future. Our broad range of connectivity and sensor solutions enable the distribution of power, signal and data to advance next-generation transportation, renewable energy, automated factories, data centers, medical technology and more. With more than 85,000 employees, including 8,000 engineers, working alongside customers in approximately 140 countries. TE ensures that EVERY CONNECTION COUNTS. Learn more at www.te.com and on LinkedIn , Facebook , WeChat, Instagram and X (formerly Twitter). We are pleased to offer you an exciting total package that can also be flexibly adapted to changing life situations - the well-being of our employees is our top priority! Across our global sites and business units, we put together packages of benefits that are either supported by TE itself or provided by external service providers. In principle, the benefits offered can vary from site to site. Location

At TE, you will unleash your potential working with people from diverse backgrounds and industries to create a safer, sustainable and more connected world. Job Overview Designs a complete and complex Simulation framework, system, or product. Define simulationprocesses for technical platforms, system specifications, input/output and working parameters for hardware and/or software compatibility. Conceives system interfaces and business application prototypes. Identifies, analyzes and resolves system design weaknesses. Influences the shaping of future products by contributing to the framework (architecture) used across multiple products or systems. What your background should look like: Competencies

At TE, you will unleash your potential working with people from diverse backgrounds and industries to create a safer, sustainable and more connected world. Job Overview Designs a complete and complex Simulation framework, system, or product. Define simulationprocesses for technical platforms, system specifications, input/output and working parameters for hardware and/or software compatibility. Conceives system interfaces and business application prototypes. Identifies, analyzes and resolves system design weaknesses. Influences the shaping of future products by contributing to the framework (architecture) used across multiple products or systems. Responsibilities To perform FEA tasks and provide suitable design recommendations to validate the design virtually. Validate concept designs using simulation techniques and determine design robustness, critical to function requirements. Position will perform analysis of electrical connector systems in response to requests from the Engineering and Sales functions. Deploy FEA Techniques implicit and explicit approach, using Software tools like Ansys majorly on Nonlinear static, dynamics, thermal and electrothermal analysis. Translate the actual problem to a Finite Element Analysis (FEA) model, interpret the analysis results and select the best solution Monitor and evaluate simulation software capabilities and industry trends. Deploy a standardised process and work methodology Train and develop the capability of the team to be a multi-skilled resource pool. Benchmark and implement productivity improvement methods. Track monitor metrics for sustained performance covering quality & delivery. Collaborate with design & validation teams to enhance the design optimisation. What your background should look like: BE/ B.Tech (Mechanical/Electrical) M Tech (Mechanical/Electrical) (preferred) Knowledge of product, design processes and methodolo Expertise on CAE tools, Optimization techniques, and testing methods Understanding of LEAN / 6 Sigma / Kaizen techniques. Proficiency in state-of-the-art FEA- Ansys Mechanical, MAPDL, LS-DYNA, MATLAB Programming language - Python, Microsoft VB-script, Power BI- An added advantage Proficiency in the use of MS Office tools. Experience onconnector products (Plastics and Sheet Metal parts) is an added advantage. CRITICAL EXPERIENCE 5-7 years of industry experience. Knowledge on Non-Linear structural, dynamics, thermal & electrothermal analysis. Knowledge on material science (Metals, Plastics & hyper elastic material) and implement for simulation. Correlation of Test and simulation data / results. Competencies

POSITION : MGR I R&D/PRODUCT DVL ENGINEERING LOCATION BANGALQORE BU Industrial Segment - Aerospace Defense & Marine BU COMPANY TE Connectivity Ltd. is a $16.2 billion global technology and manufacturing leader creating a safer, sustainable, productive, and connected future. For more than 75 years, our connectivity and sensor solutions, proven in the harshest environments, have enabled advancements in transportation, industrial applications, medical technology, energy, data communications, and the home. With 80,000+ employees, including more than 8,000 engineers, working alongside customers in approximately 140+ countries, TE ensures that EVERY CONNECTION COUNTS. Learn more at www.te.com Role Description: Responsible to manage FEA tasks and provide suitable design recommendations to validate the design virtually. Responsibilities: Formulate strategy / road map for Simulation team. Manages a portfolio of new and on-going projects, using good project management skills. Evaluate mechanical and thermal performance of product designs and processes Analyzing stress and deformation in products, based on FEM Designing, modelling and simulating mold designs, including cooling, for TE factories and NPD engineers Proposing SW integration projects to create multi-physical models that target TE product design needs Managing outsourced SW development projects related to the above Develops proposals for new projects and enhanced TE modelling and simulation capabilities Creates awareness across TE of the modelling and simulation capabilities. Works with local, and regional, TE sites and external customers to address urgent or strategic needs Skill Set and Profile: Minimum 15+ years of experience in the field of Finite element simulations. Sound knowledge on ANSYS workbench in Structural and Thermal simulations is a must. Knowledge on LS-Dyna, Simufact or Moldflow will be an added advantage Should know the basics of FEA and able to create hand calculation to verify the designs. Correlation of FEM results to Lab reports Should have knowledge on Plastics manufacturing processes. Highly motivated to be a good team player Fluent in English both written and spoken; additional knowledge of another language (e. g. German, French) is an advantage Excellent interpersonal and communication skills Culturally sensitive Qualification & Experience: B.E / B.Tech in Mechanical Engineering M.E. (Mechanical / Polymers / Plastic technology) will be added advantage MOTIVATIONAL/CULTURAL FIT Innovation demeanor Problem solving Passion for technology Talent development Results driven Clear and concise communication TE Connectivity is a global industrial technology leader creating a safer, sustainable, productive, and connected future. Our broad range of connectivity and sensor solutions enable the distribution of power, signal and data to advance next-generation transportation, renewable energy, automated factories, data centers, medical technology and more. With more than 85,000 employees, including 8,000 engineers, working alongside customers in approximately 140 countries. TE ensures that EVERY CONNECTION COUNTS. Learn more at www.te.com and on LinkedIn , Facebook , WeChat, Instagram and X (formerly Twitter). We are pleased to offer you an exciting total package that can also be flexibly adapted to changing life situations - the well-being of our employees is our top priority! Across our global sites and business units, we put together packages of benefits that are either supported by TE itself or provided by external service providers. In principle, the benefits offered can vary from site to site. Location

At TE, you will unleash your potential working with people from diverse backgrounds and industries to create a safer, sustainable and more connected world. Job Overview Designs a complete and complex Simulation framework, system, or product. Define simulationprocesses for technical platforms, system specifications, input/output and working parameters for hardware and/or software compatibility. Conceives system interfaces and business application prototypes. Identifies, analyzes and resolves system design weaknesses. Influences the shaping of future products by contributing to the framework (architecture) used across multiple products or systems. Responsibilities Validate concept designs using simulation techniques and determine design robustness, critical to function requirements. Deploy FEA Techniques - implicit and explicit approach, using Software tools like Ansys Workbench, ANSYS Mechanical, LS-DYNA, Icepak, Hypermesh, Simufact, Digimat etc Translate actual problem to Finite Element Analysis (FEA) model, interpret analysis results and select best solution which includes linear & non-linear analysis under different physics. Monitor and evaluate simulation software capabilities and industry trends. Deploy standardized process and work methodology. Develop and train capability of the team to be a multi-skilled unit. Benchmark and implement productivity improvement methods. Monitor metrics for sustained performance covering quality & delivery. Collaborate with design & validation teams to enhance design optimization. Understand the influence/impact of recommendations on manufacturability and financials. Desired Candidate Profile BE/ B.Tech (Mechanical/Electrical) M Tech (Mechanical/Electrical) (preferred) Knowledge of product, design processes and methodology. Proficiency in state-of-the-art .FEA- ANSYS WORKBENCH, LS-DYNA, HYPERMESH, SIMUFACT, MOLDEX3D, OPTISLANG, ICEPAK.CAD tools- PTC Creo, ANSYS SpaceClaim. Proficiency in use of MS Office tools. Knowledge of associated manufacturing processes (molding, stamping, plating, & assembly). Knowledge about the additional manufacturing technologiescrimping, Ultrasonic welding, Laser welding technologies, soldering. Knowledge of Python programming language or similar CRITICAL EXPERIENCE 8+ years of industry experience. Expertise in Ansys Workbench. Experience on connector or related products (Plastic and Sheet Metal parts). Knowledge on material science (Metals, Resins & hyper elastic material) and implement for simulation. Correlation of test and simulation data / results. Expertise on CAE tools, optimization techniques, and testing methods Competencies ABOUT TE CONNECTIVITY TE Connectivity is a global industrial technology leader creating a safer, sustainable, productive, and connected future. Our broad range of connectivity and sensor solutions enable the distribution of power, signal and data to advance next-generation transportation, renewable energy, automated factories, data centers, medical technology and more. With more than 85,000 employees, including 8,000 engineers, working alongside customers in approximately 140 countries. TE ensures that EVERY CONNECTION COUNTS. Learn more at www.te.com and on LinkedIn , Facebook , WeChat, Instagram and X (formerly Twitter). WHAT TE CONNECTIVITY OFFERS: We are pleased to offer you an exciting total package that can also be flexibly adapted to changing life situations - the well-being of our employees is our top priority! Competitive Salary Package Performance-Based Bonus Plans Health and Wellness Incentives Employee Stock Purchase Program Community Outreach Programs / Charity Events Across our global sites and business units, we put together packages of benefits that are either supported by TE itself or provided by external service providers. In principle, the benefits offered can vary from site to site. Location

About us At ExxonMobil, our vision is to lead in energy innovations that advance modern living and a net-zero future. As one of the world s largest publicly traded energy and chemical companies, we are powered by a unique and diverse workforce fueled by the pride in what we do and what we stand for. The success of our Upstream, Product Solutions and Low Carbon Solutions businesses is the result of the talent, curiosity and drive of our people. They bring solutions every day to optimize our strategy in energy, chemicals, lubricants and lower-emissions technologies. We invite you to bring your ideas to ExxonMobil to help create sustainable solutions that improve quality of life and meet society s evolving needs. Learn more about our What and our Why and how we can work together . What role you will play in our team ExxonMobil is seeking qualified and experienced individuals to provide Pipeline Engineering technical support and expertise to its oil and gas development and low carbon solutions (LCS) projects and production operations. The candidate would be part of ExxonMobil s Pipelines & Risers team in ExxonMobil Technology and Engineering Company, working out of ExxonMobil s Bangalore Campus (Prestige Shantiniketan) in India. The candidate would be responsible for working with multi-discipline teams to execute and / or steward pipeline design / engineering activities as part of project development (concept, FEED), execution, and operations phases. What you will do Develop scope of works, design philosophies & criteria from life cycle perspective covering system design, routing using GIS & other tools, pipe sizing / hydraulics, wall thickness, material selection, stability Spanning/on-bottom roughness, local & global buckling/walking, installation analysis, pre-commissioning & commissioning, design & constructability reviews and inter-discipline interfaces. Pigging strategy/philosophies, piggability studies, In-line inspection tool selection, data management and analysis, Integrity assessment/ assurance activities like FFS, Corrosion Evaluations, Remaining Life Studies including pipeline defect assessment like dents, ovalities, laminations, cracks etc. Support green/brownfield project teams with technical reviews of deliverables (e.g. design basis & philosophy, survey reports & maps, technical specifications, analysis reports, drawings, vendor deliverables, etc.) and participation in technical safety review workshops (e.g. HAZID/HAZOP, risk assessments, design/constructability, EIA, Oil Spill Scenarios, etc.), while leveraging Company s global practices as well as industry codes & standards Work closely with other disciplines e.g. Materials Integrity, Operations, Static Equipment, Subsea and Flow Assurance to contribute technically to overall system design and integrity related assessments including data analytics Interface with suppliers, contractors and other third parties to ensure work products are in alignment with ExxonMobil expectations Participate in industry activities such as conferences and committees Participate in risk assessments, technology evaluations / selections, and fitness for service assessments Field visits to project locations, vendor premises, production units, etc. About You Skills and Qualifications Bachelor s degree or Master s degree from a recognized university in Mechanical / Civil / Materials / Marine Engineering or related disciplines with minimum GPA 7.0 Strong listening, verbal & written communication skills in English Strong interpersonal and collaboration skills with ability to mentor others and work with globally diverse business teams 3-15 years of professional experience in oil and gas pipeline engineering with either operating company, pipeline engineering design contractor or Pipeline Project EPCI contractor Pipeline Engineering experience in Oil and Gas Industry with strong expertise in offshore and/or onshore pipeline systems Should have work experiences such as the below: Leadership behaviors/capabilities (e.g. leading teams, mentoring/coaching others, etc.) Onshore and Offshore/Deepwater pipeline/riser system design and/or integrity related codes, standards and recommended practices Strong analytical skills in performing technical analysis and applying good engineering judgement for business decisions related to offshore & onshore pipeline system life cycle Hands-on experience in using pipeline & riser related software, FEA & programming tools e.g. DNV Suite, PRCI OBS/Toolbox, SageProfile 3D, Orcaflex, Abaqus, VB/Python scripting, MathCAD/Matlab, etc. Familiarity with PODS & GIS related tools Pipeline maintenance pigging or intelligent pigging inspection and/or tool selection and/or results assessment. Pipeline construction / installation / pre-commissioning & start-up activities. Flexibility to travel internationally as per business needs ( Flexible to work in shifts 1.30 PM 10.30 PM IST Preferred Qualifications / Experience Strong listening, verbal & written communication skills in English Strong interpersonal and collaboration skills with ability to mentor others and work with globally diverse business teams Flexibility to travel internationally as per business needs ( Your benefits An ExxonMobil career is one designed to last. Our commitment to you runs deep our employees grow personally and professionally, with benefits built on our core categories of health, security, finance and life. We offer you: Competitive compensation Medical plans, maternity leave and benefits, life, accidental death and dismemberment benefits Retirement benefits Global networking & cross-functional opportunities Annual vacations & holidays Day care assistance program Training and development program Tuition assistance program Workplace flexibility policy Relocation program Transportation facility Please note benefits may change from time to time without notice, subject to applicable laws. The benefits programs are based on the Company s eligibility guidelines. Stay connected with us Learn more about ExxonMobil in India, visit ExxonMobil India and Energy Factor India . Follow us on LinkedIn and ExxonMobil (@exxonmobil) Instagram photos and videos Like us on Facebook Subscribe our channel at YouTube EEO Statement ExxonMobil is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, age, national origin or disability status. Business solicitation and recruiting scams ExxonMobil does not use recruiting or placement agencies that charge candidates an advance fee of any kind (e.g., placement fees, immigration processing fees, etc.). Follow the LINK to understand more about recruitment scams in the name of ExxonMobil. Nothing herein is intended to override the corporate separateness of local entities. Working relationships discussed herein do not necessarily represent a reporting connection, but may reflect a functional guidance, stewardship, or service relationship. Exxon Mobil Corporation has numerous affiliates, many with names that include ExxonMobil, Exxon, Esso and Mobil. For convenience and simplicity, those terms and terms like corporation, company, our, we and its are sometimes used as abbreviated references to specific affiliates or affiliate groups. Abbreviated references describing global or regional operational organizations and global or regional business lines are also sometimes used for convenience and simplicity. Similarly, ExxonMobil has business relationships with thousands of customers, suppliers, governments, and others. For convenience and simplicity, words like venture, joint venture, partnership, co-venturer, and partner are used to indicate business relationships involving common activities and interests, and those words may not indicate precise legal relationships.

About us At ExxonMobil, our vision is to lead in energy innovations that advance modern living and a net-zero future. As one of the world s largest publicly traded energy and chemical companies, we are powered by a unique and diverse workforce fueled by the pride in what we do and what we stand for. The success of our Upstream, Product Solutions and Low Carbon Solutions businesses is the result of the talent, curiosity and drive of our people. They bring solutions every day to optimize our strategy in energy, chemicals, lubricants and lower-emissions technologies. We invite you to bring your ideas to ExxonMobil to help create sustainable solutions that improve quality of life and meet society s evolving needs. Learn more about our What and our Why and how we can work together . ExxonMobil s affiliates in India ExxonMobil s affiliates have offices in India in Bengaluru, Mumbai and the National Capital Region. ExxonMobil s affiliates in India supporting the Product Solutions business engage in the marketing, sales and distribution of performance as well as specialty products across chemicals and lubricants businesses. The India planning teams are also embedded with global business units for business planning and analytics. ExxonMobil s LNG affiliate in India supporting the upstream business provides consultant services for other ExxonMobil upstream affiliates and conducts LNG market-development activities. The Global Business Center - Technology Center provides a range of technical and business support services for ExxonMobil s operations around the globe. ExxonMobil strives to make a positive contribution to the communities where we operate and its affiliates support a range of education, health and community-building programs in India. Read more about our Corporate Responsibility Framework. To know more about ExxonMobil in India, visit ExxonMobil India and the Energy Factor India . What role you will play in our team ExxonMobil is seeking qualified and experienced individuals to provide Riser Engineering technical support and expertise to its oil and gas development projects and production operations. The candidate would be part of ExxonMobil s Pipelines & Risers team in ExxonMobil Technology and Engineering Company, working out of ExxonMobil s Bangalore Campus (Prestige Shantiniketan) in India. The candidate would be responsible for working with multi-discipline deepwater SURF (Subsea, Umbilicals, Risers, Flowlines) teams to execute and / or steward riser design / engineering activities as part of project development (concept, FEED), execution, and operations phases. What you will do Develop, specify, and apply riser system design criteria for a wide variety of activities, developments, and operations, i.e., large-scale deepwater capital projects, R&D programs, and offshore installation activities opportunities. Get involved in various riser, flexibles or umbilicals engineering activities for deepwater projects from concept evaluation and selection to installation to commissioning and start up Execute and/or oversee riser analysis studies (conducted by ExxonMobil internal resources and / or third-party companies) to support riser system design (i.e., strength, fatigue, interference) Evaluate strengths and shortcomings of different riser design philosophies. Lead revisions to company standards and/or industry practices. Interface with engineers from other disciplines (e.g., marine, pipelines, flow assurance, materials) to align on work scopes and work products. Interface with suppliers, contractors and other third parties to ensure work products are in alignment with ExxonMobil expectations. Participate in offshore industry activities such as conferences and committees. Field visits to project locations, vendor premises, production units, etc Participate in risk assessments, technology evaluations / selections, and fitness for service assessments. About you Skills and Qualifications Bachelors or masters degree in engineering preferably in Mechanical / Civil / Marine Engineering or related disciplines with minimum GPA 7.0 Minimum 3 years of experience in Riser Engineering. The experience should include primarily dynamic riser system development or engineering support, at some of the following stages of project: Concept selection/FEED/Detail Engineering, Manufacturing/Fabrication, Installation, Testing and Integrity Management Demonstrated experience can include Rigid, flexible, hybrid risers and/or dynamic umbilical systems Either of these riser system configurations: single hybrid risers, lazy-wave or catenary configurations Dynamic riser analysis in industry standard FE software such as OrcaFlex, ABAQUS or similar. Analysis experience should be detailed as follows: Strength analysis due to Wave/Vessel motion Fatigue analyses due to Wave/Vessel motion, VIV etc. Interference Installation Local analyses for Flexible/Umbilical Experience in leading or coordinating work of other riser engineers and interfacing with internal/external client would be a bonus Willingness and ability to travel domestically and internationally as per business needs ( Proficient in Microsoft Office suite of software programs Strong listening, verbal & written communication skills in English Strong interpersonal and collaboration skills with ability to mentor others and work with globally diverse business teams Flexible to work in shifts 1.30 PM 10.30 PM IST Preferred Qualifications/ Experience Working knowledge of applying riser engineering codes & standards, such as API or DNV guidelines such as API 2RD, 17J etc. Strong leadership, influencing, and interpersonal skills Your benefits An ExxonMobil career is one designed to last. Our commitment to you runs deep: our employees grow personally and professionally, with benefits built on our core categories of health, security, finance and life. We offer you: Competitive compensation Medical plans, maternity leave and benefits, life, accidental death and dismemberment benefits Retirement benefits Global networking & cross-functional opportunities Annual vacations & holidays Day care assistance program Training and development program Tuition assistance program Workplace flexibility policy Relocation program Transportation facility Please note benefits may change from time to time without notice, subject to applicable laws. The benefits programs are based on the Company s eligibility guidelines. Stay connected with us Learn more about ExxonMobil in India, visit ExxonMobil India a nd Energy Factor India . Follow us on LinkedIn and Instagram Like us on Facebook Subscribe our channel at YouTube EEO Statement ExxonMobil is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, age, national origin or disability status. Business solicitation and recruiting scams ExxonMobil does not use recruiting or placement agencies that charge candidates an advance fee of any kind (e.g., placement fees, immigration processing fees, etc.). Follow the LINK to understand more about recruitment scams in the name of ExxonMobil. Nothing herein is intended to override the corporate separateness of local entities. Working relationships discussed herein do not necessarily represent a reporting connection, but may reflect a functional guidance, stewardship, or service relationship. Exxon Mobil Corporation has numerous affiliates, many with names that include ExxonMobil, Exxon, Esso and Mobil. For convenience and simplicity, those terms and terms like corporation, company, our, we and its are sometimes used as abbreviated references to specific affiliates or affiliate groups. Abbreviated references describing global or regional operational organizations and global or regional business lines are also sometimes used for convenience and simplicity. Similarly, ExxonMobil has business relationships with thousands of customers, suppliers, governments, and others. For convenience and simplicity, words like venture, joint venture, partnership, co-venturer, and partner are used to indicate business relationships involving common activities and interests, and those words may not indicate precise legal relationships.

About us At ExxonMobil, our vision is to lead in energy innovations that advance modern living and a net-zero future. As one of the world s largest publicly traded energy and chemical companies, we are powered by a unique and diverse workforce fueled by the pride in what we do and what we stand for. The success of our Upstream, Product Solutions and Low Carbon Solutions businesses is the result of the talent, curiosity and drive of our people. They bring solutions every day to optimize our strategy in energy, chemicals, lubricants and lower-emissions technologies. We invite you to bring your ideas to ExxonMobil to help create sustainable solutions that improve quality of life and meet society s evolving needs. Learn more about our What and our Why and how we can work together . ExxonMobil s affiliates in India ExxonMobil s affiliates have offices in India in Bengaluru, Mumbai and the National Capital Region. ExxonMobil s affiliates in India supporting the Product Solutions business engage in the marketing, sales and distribution of performance as well as specialty products across chemicals and lubricants businesses. The India planning teams are also embedded with global business units for business planning and analytics. ExxonMobil s LNG affiliate in India supporting the upstream business provides consultant services for other ExxonMobil upstream affiliates and conducts LNG market-development activities. The Global Business Center - Technology Center provides a range of technical and business support services for ExxonMobil s operations around the globe. ExxonMobil strives to make a positive contribution to the communities where we operate and its affiliates support a range of education, health and community-building programs in India. Read more about our Corporate Responsibility Framework. To know more about ExxonMobil in India, visit ExxonMobil India and the Energy Factor India . What role you will play in our team Support engineering activities in computational mechanics and FEA for static equipment and machinery components, including Operating Asset support and Project Engineering surveillance in Bangalore, KA. What you will do Perform FEA and FFS work supporting operating and new ExxonMobil assets globally upstream, downstream and low carbon solutions, fixed and rotating equipment, using ABAQUS, NozzlePro, SagePlus and SolidWorks software. Participate in Root Cause Failure Analyses (RCFA) for fixed and rotating equipment. Participate in Regional and Global technical networks and action teams. Work closely and in conjunction with the AA|FFS Principal Engineer, Mechanics of Materials Principal Engineer, and other relevant PEs, in providing technical support to stakeholders. Collaboration / Review / Troubleshooting of FEA and FFS work being performed by others using finite element analysis applications Documentation of analysis work, report writing and recommendations, interfacing with site personnel to collect required data and information for analysis. Develop software and scripts in Python, C++ or Fortran to aid in complex FEA assessments- eg: 3d point cloud conversions, Fortran subroutines for Abaqus, post-processing scripts for FEA models Developing job-aids for commonly performed analyses. Assist with international codes and standards enhancements/development. About You Skills and Qualifications: Masters in mechanical engineering or equivalent degree, or closely related engineering field from a recognized university with GPA 7.0 or above Minimum 3 years experience as an FEA and computational mechanics specialist in design and assessment of static equipment or machinery components Minimum 3 years of experience applying finite element methods in petrochemical or other engineering fields, to evaluate or design components. Including development and application of user sub-routines and scripting (e.g., Python, Fortran, C++). Possesses a programming mindset with the ability to assess a task, explain the required programming logic/algorithm, and identify the necessary learning resources (people, documentation, etc.) to solve a specific problem Familiar with industry standards for pressure vessels (ASME VIII), piping (ASME B31.3 and ASME B31.1), tanks (API 650) and Fitness for Service (API 579). Should have experience in developing programs or scripts (for subroutines, post processing etc.) in aid of an FEA analysis Preferred Qualifications/Experiences Experience in application of fracture mechanics, fatigue, and high temperature assessment methods. Exposure in risk-based assessments, root cause analysis, and development of equipment strategies and mitigation plans. Experience with coupled-temperature FEA problems. Experience with computational fluid dynamics. Experience with analyzing structural dynamics problems, and/or FEA implicit and explicit solvers. Analysis and troubleshooting of fixed equipment using applications such as PV-Elite, Caesar II, and SagePlus. Strong verbal and written communication skills in English Humble and Collaborative: Freely asks for help, communicates knowledge gaps, assumes teamwork is essential, and connects with peers and experts for diverse perspectives on solving a problem Willing and able to travel, as required, for extended periods Your benefits An ExxonMobil career is one designed to last. Our commitment to you runs deep: our employees grow personally and professionally, with benefits built on our core categories of health, security, finance and life. We offer you: Competitive compensation Medical plans, maternity leave and benefits, life, accidental death and dismemberment benefits Retirement benefits Global networking & cross-functional opportunities Annual vacations & holidays Day care assistance program Training and development program Tuition assistance program Workplace flexibility policy Relocation program Transportation facility Please note benefits may change from time to time without notice, subject to applicable laws. The benefits programs are based on the Company s eligibility guidelines. Stay connected with us Learn more about ExxonMobil in India, visit ExxonMobil India and Energy Factor India . Follow us on LinkedIn and Instagram Like us on Facebook Subscribe our channel at YouTube EEO Statement ExxonMobil is an Equal Opportunity Employer: All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, age, national origin or disability status. Business solicitation and recruiting scams ExxonMobil does not use recruiting or placement agencies that charge candidates an advance fee of any kind (e.g., placement fees, immigration processing fees, etc.). Follow the LINK to understand more about recruitment scams in the name of ExxonMobil. Nothing herein is intended to override the corporate separateness of local entities. Working relationships discussed herein do not necessarily represent a reporting connection, but may reflect a functional guidance, stewardship, or service relationship. Exxon Mobil Corporation has numerous affiliates, many with names that include ExxonMobil, Exxon, Esso and Mobil. For convenience and simplicity, those terms and terms like corporation, company, our, we and its are sometimes used as abbreviated references to specific affiliates or affiliate groups. Abbreviated references describing global or regional operational organizations and global or regional business lines are also sometimes used for convenience and simplicity. Similarly, ExxonMobil has business relationships with thousands of customers, suppliers, governments, and others. For convenience and simplicity, words like venture, joint venture, partnership, co-venturer, and partner are used to indicate business relationships involving common activities and interests, and those words may not indicate precise legal relationships.

Job Description Sponsorship: GM DOES NOT PROVIDE IMMIGRATION-RELATED SPONSORSHIP FOR THIS ROLE. DO NOT APPLY FOR THIS ROLE IF YOU WILL NEED GM IMMIGRATION SPONSORSHIP (e.g., H-1B, TN, STEM OPT, etc.) NOW OR IN THE FUTURE. Work Arrangement :This role is categorized as hybrid. This means the successful candidate is expected to report to the office three times per week or other frequency dictated by the business. The Role Senior Engineer / Lead Engineer AI CAE will Drive AI innovation in CAE analysis. Execute end-to-end projects from idea to deployment, applying Reduced order modelling (ROM), Simulation data driven ML, DoE techniques to solve Manufacturing problems while ensuring data security and delivering measurable impact. Define and deploy process and methods for AI in CAE What Youll Do Collaborate with stakeholders to understand business problems in the CAE domain and translate them into AI solutions. Design, develop, and fine-tune AI/ML models for: Simulation result prediction and design optimization Automating repetitive CAE tasks (meshing, boundary conditions, post-processing). Evaluate, validate, and benchmark model performance using appropriate metrics. Deploy AI models into production environments in collaboration with IT/AI teams. Establish monitoring and maintenance processes to ensure model accuracy over time. Ensure that all AI solutions comply with organizational data security, confidentiality, and regulatory requirements. Document workflows, results, and lessons learned for organisational knowledge sharing. Stay updated on advancements in neural networks, multi-physics simulations, surrogate modelling and physics-informed learning techniques. Your Skills and Abilities (Required Qualifications) Bachelor s or Masters Degree Mechanical / Automobile / Production /Mechatronics Engineering discipline or similar. 5+ years experience in CAE at Automotive Product Development / Manufacturing Engineering. 3+ years experience in implementing AI solutions in CAE Should have executed at least 5+ years of Core CAE domain (from problem definition to deployment) experience. Strong programming skills in Python, MATLAB, CAE tool-specific APIs (Altair suite, NASTRAN, ANSYS APDL, Abaqus etc.), workflow automation. Experience with ML frameworks like Pytorch, TensorFlow. Understanding of data annotation tools and MLOps workflows. Experience in data handling and feature engineering. Strong problem-solving and analytical mindset. Experience in domain-specific AI use cases (manufacturing, automotive, etc.). Additional Job Description What Will Give You A Competitive Edge (Preferred Qualifications) Knowledge of multi-physics simulations (Structural + thermal + fluid). Familiarity with Bayesian optimization and DOE Exposure to ML Ops practices for model deployment and monitoring. Strong problem-solving mindset and curiosity for AI innovation. Ability to translate domain problems into AI solutions. Collaboration skills to work with cross-functional teams. Clear communication of technical concepts to non-technical stakeholders. NOTE: This is a 3-year special assignment in enabling AI across Manufacturing workflows. About GM Our vision is a world with Zero Crashes, Zero Emissions and Zero Congestion and we embrace the responsibility to lead the change that will make our world better, safer and more equitable for all. Why Join Us We believe we all must make a choice every day individually and collectively to drive meaningful change through our words, our deeds and our culture. Every day, we want every employee to feel they belong to one General Motors team. Non-Discrimination and Equal Employment Opportunities General Motors is committed to being a workplace that is not only free of unlawful discrimination, but one that genuinely fosters inclusion and belonging. We strongly believe that providing an inclusive workplace creates an environment in which our employees can thrive and develop better products for our customers. We encourage interested candidates to review the key responsibilities and qualifications for each role and apply for any positions that match their skills and capabilities. Applicants in the recruitment process may be required, where applicable, to successfully complete a role-related assessment(s) and/or a pre-employment screening prior to beginning employment. To learn more, visit How we Hire . Accommodations General Motors offers opportunities to all job seekers including individuals with disabilities. If you need a reasonable accommodation to assist with your job search or application for employment, email us or call us at 800-865-7580. In your email, please include a description of the specific accommodation you are requesting as well as the job title and requisition number of the position for which you are applying.

About us At ExxonMobil, our vision is to lead in energy innovations that advance modern living and a net-zero future. As one of the world s largest publicly traded energy and chemical companies, we are powered by a unique and diverse workforce fueled by the pride in what we do and what we stand for. The success of our Upstream, Product Solutions and Low Carbon Solutions businesses is the result of the talent, curiosity and drive of our people. They bring solutions every day to optimize our strategy in energy, chemicals, lubricants and lower-emissions technologies. We invite you to bring your ideas to ExxonMobil to help create sustainable solutions that improve quality of life and meet society s evolving needs. Learn more about our What and our Why and how we can work together . ExxonMobil s affiliates in India ExxonMobil s affiliates have offices in India in Bengaluru, Mumbai and the National Capital Region. ExxonMobil s affiliates in India supporting the Product Solutions business engage in the marketing, sales and distribution of performance as well as specialty products across chemicals and lubricants businesses. The India planning teams are also embedded with global business units for business planning and analytics. ExxonMobil s LNG affiliate in India supporting the upstream business provides consultant services for other ExxonMobil upstream affiliates and conducts LNG market-development activities. The Global Business Center - Technology Center provides a range of technical and business support services for ExxonMobil s operations around the globe. ExxonMobil strives to make a positive contribution to the communities where we operate and its affiliates support a range of education, health and community-building programs in India. Read more about our Corporate Responsibility Framework. To know more about ExxonMobil in India, visit ExxonMobil India and the Energy Factor India . What role you will play in our team Provide experienced mechanical engineering and computational mechanics expertise, technical leadership, and mentorship to less experienced and developing Global Support FEA specialists located in the Bangalore Technology Centre, in the application of finite element methods, petrochemical engineering codes and standards, advanced fitness for service, risk-based assessments, and E-Status and TQ oversight, for existing and new facilities What you will do Perform FEA and FFS work supporting operating and new ExxonMobil assets globally upstream, downstream and low carbon solutions, fixed and rotating equipment, using ABAQUS, NozzlePro, SagePlus and SolidWorks software. Participate in Root Cause Failure Analyses (RCFA) for fixed and rotating equipment. Participate in Regional and Global technical networks and action teams. Work closely and in conjunction with the AA|FFS Principal Engineer, Mechanics of Materials Principal Engineer, and other relevant PEs, in providing technical support to stakeholders. Collaboration / Review / Troubleshooting of FEA and FFS work being performed by others using finite element analysis applications Documentation of analysis work, report writing and recommendations, interfacing with site personnel to collect required data and information for analysis. Develop software and scripts in Python, C++ or Fortran to aid in complex FEA assessments- eg: 3d point cloud conversions, Fortran subroutines for Abaqus, post-processing scripts for FEA models Developing job-aids for commonly performed analyses. Assist with international codes and standards enhancements/development. About You Skills and Qualifications: Masters in mechanical engineering or equivalent degree, or closely related engineering field from a recognized university with GPA 7.0 or above Minimum 8 years experience as an FEA and computational mechanics specialist in design and assessment of static equipment or machinery components Minimum 10 years of experience applying finite element methods in petrochemical or other engineering fields, to evaluate or design components. Including development and application of user sub-routines and scripting (e.g., Python, Fortran, C++). Possesses a programming mindset with the ability to assess a task, explain the required programming logic/algorithm, and identify the necessary learning resources (people, documentation, etc.) to solve a specific problem Familiar with industry standards for pressure vessels (ASME VIII), piping (ASME B31.3 and ASME B31.1), tanks (API 650) and Fitness for Service (API 579). Should have experience in developing programs or scripts (for subroutines, post processing etc.) in aid of an FEA analysis Preferred Qualifications/Experiences Experience in application of fracture mechanics, fatigue, and high temperature assessment methods. Exposure in risk-based assessments, root cause analysis, and development of equipment strategies and mitigation plans. Experience with coupled-temperature FEA problems. Experience with computational fluid dynamics. Experience with analyzing structural dynamics problems, and/or FEA implicit and explicit solvers. Analysis and troubleshooting of fixed equipment using applications such as PV-Elite, Caesar II, and SagePlus. Strong verbal and written communication skills in English Humble and Collaborative: Freely asks for help, communicates knowledge gaps, assumes teamwork is essential, and connects with peers and experts for diverse perspectives on solving a problem Willing and able to travel, as required, for extended periods Your benefits An ExxonMobil career is one designed to last. Our commitment to you runs deep: our employees grow personally and professionally, with benefits built on our core categories of health, security, finance and life. We offer you: Competitive compensation Medical plans, maternity leave and benefits, life, accidental death and dismemberment benefits Retirement benefits Global networking & cross-functional opportunities Annual vacations & holidays Day care assistance program Training and development program Tuition assistance program Workplace flexibility policy Relocation program Transportation facility Please note benefits may change from time to time without notice, subject to applicable laws. The benefits programs are based on the Company s eligibility guidelines. Stay connected with us Learn more about ExxonMobil in India, visit ExxonMobil India and Energy Factor India . Follow us on LinkedIn and Instagram Like us on Facebook Subscribe our channel at YouTube EEO Statement ExxonMobil is an Equal Opportunity Employer: All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, age, national origin or disability status. Business solicitation and recruiting scams ExxonMobil does not use recruiting or placement agencies that charge candidates an advance fee of any kind (e.g., placement fees, immigration processing fees, etc.). Follow the LINK to understand more about recruitment scams in the name of ExxonMobil. Nothing herein is intended to override the corporate separateness of local entities. Working relationships discussed herein do not necessarily represent a reporting connection, but may reflect a functional guidance, stewardship, or service relationship. Exxon Mobil Corporation has numerous affiliates, many with names that include ExxonMobil, Exxon, Esso and Mobil. For convenience and simplicity, those terms and terms like corporation, company, our, we and its are sometimes used as abbreviated references to specific affiliates or affiliate groups. Abbreviated references describing global or regional operational organizations and global or regional business lines are also sometimes used for convenience and simplicity. Similarly, ExxonMobil has business relationships with thousands of customers, suppliers, governments, and others. For convenience and simplicity, words like venture, joint venture, partnership, co-venturer, and partner are used to indicate business relationships involving common activities and interests, and those words may not indicate precise legal relationships.

Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Minimum 7.5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:Join a mid-level leadership role within the Aerostructure Engineering team, supporting both strategy and technical execution across the full engineering lifecyclefrom concept through production, certification, and sustainment. Play a pivotal role in leading engineering delivery, technical governance, and client interactions for high-impact aerospace programs spanning rotary- and fixed-wing platforms. Opportunity to drive digital engineering initiatives including MBD, MBSE, and digital twin integration within legacy and next-gen design environments. Own design and development tasks for aircraft structural components. Apply advanced aircraft structural analyses Approach to Validate the design concepts through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection and operational design environmental conditions compliant to the airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Preparation of method register, Method document, check lists, report templates, SLA in alignment with client. Guide the team for selection of optimum design by stress evaluation of multiple structural design concepts through detailed trade-off analyses for required dimensions and weight constraints. Maintaining scope requirement log, Input enabler and query trackers and coordinating with respective client stakeholders to get the resolutions on-time, ensuring high-quality output. Lead the team to develop complex 2D and 3D FE models, their integration, properties allocation, create validation and verification reports for the FE models, Analysis deck preparation/editing, perform structural Analyses, result extraction and interpretations, Error removal, post process and assist in developing automation using inhouse macros. Finalize the meshing and analyses requirements for different types of structural analyses in alignment with client. Mitigation in case of low RF/MOS, Alternative concepts analyses, compilation of inputs for the review and certification reports. Analyse complex design challenges and propose optimal engineering solutions. Level II and Level III checker and signatory for the analysis and certification reports from Accenture side. Certification test support creation of FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Ensuring alignment with weight budgets and performance criteria. Collaborate and lead cross-functionally with design team, manufacturing, quality, and systems teams; actively engage in design reviews, issue resolution, and integration discussions. Act as the primary technical interface with the client, ensuring alignment on design objectives and deliverables. Support and mentor junior team members by providing technical guidance, sharing best practices, and fostering their growth in design methodologies, tools, and domain knowledge. Actively contributes to skill development, knowledge transfer, and team capability building through hands-on support and constructive feedback. Professional & Technical Skills:Expertise in the design, development and integration of metallic, and composite helicopter aircraft structures for both primary and secondary components from static Dynamic/ Impact point of view. Experience of static dynamic and impact analysis for sizing of large, fixed wing or rotary wing aircraft. Experience in weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Working knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Familiarity with GD&T and industry drawing standards, Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Can guide the team for automation using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analysis. End to end concept to design validation, certification, manufacturing support and certification test & test correlation activities specifically for rotary wing aircraft helicopter. Command over the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Strong grasp of aerospace material selection, structural feature simulation, analyses and meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis and post processing of Analysis results. In-depth understanding of helicopter/aircraft load-bearing structures, with focus on structural integrity, stiffness, and load path optimization under both static, dynamic, and impact conditions. Familiarity with Fatigue requirement is plus. Deep knowledge of rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Strong awareness of static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Analysis considerations for the any of the Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Expertise for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Familiar with structural analysis considerations related to assembly line constraints, ergonomic considerations, and sequence planning to ensure seamless integration in high-rate production environments. Additional Information:- The candidate should have a 12 to 15 years of experience in the Aerostructure Analysis domain preferably for the rotary wing aircrafts, in a technical managerial & program manager role for OEM/service providers. This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Minimum 5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Design and develop primary and secondary structural componentsboth metallic and compositefor rotary-wing aircraft, ensuring compliance with airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Understand the meshing and analysis guidelines for static, dynamic and impact analysis and ensure the FE models created by team are complied to the guidelines and are of high quality. Ensure that the V&V documents capture the required checks for the FE models. Also ensure the physics of the problem is correctly simulated in the FE models and if required use your expertise and guidance to align with the requirements. Ensure alignment and compliance to the client specific and regulatory guidelines as per FAR 27/29CS/JAR/Military MIL-STD-1530 etc Enable team engagements and knowledge sharing for distributed teams across the programs and locations. Validate the design of structural through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection based on Analysis results and operational design environmental conditions. Owning optimum design by static stress analysis Dynamic analysis and impact analysis evaluation of multiple structural design concepts through detailed trade-off analyses. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Perform weight estimation, its tracking, and control across all design phases, ensuring alignment with weight budgets and performance criteria. Technically lead and guide the team for mitigating the low RF Low life and performance non-compliance issues. Create the test FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Creating the method register, Method document, check lists and report templates in compliance with regulatory and client specific requirements. Front end and act as the technical interface with the client, ensuring alignment on deviations and processes, methods, inputs, overall objectives and deliverables. Interact with clients on a regular basis to track and classify the issues and ensure timely resolution of the issues as per SLA. Assist in during customer technical audits, program quality gate reviews, and change control reviews. Support and mentor junior team members by providing technical guidance, sharing best practices, and fostering their growth in design methodologies, tools, and domain knowledge. Actively contributes to skill development, knowledge transfer, and team capability building through hands-on support and constructive feedback. Professional & Technical Skills:Expertise in the design/development and integration of metallic, sheet metal, and composite helicopter aircraft structures for both primary and secondary components from Static point of view. Experience of static dynamic and impact analysis for sizing of large, fixed wing or rotary wing aircraft. Experience in weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Any experience in process automation using MS excel VBA/Python etc Strong knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with GD & T and drawing standards. Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Automation experience using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analyses. End to end validation, certification compliance, manufacturing support and certification test & test correlation activities specifically for rotary wing aircraft helicopter. High level skills and experience in the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Experience of aerospace material selection, structural feature simulation, analyses and meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis and post processing of Analysis results. Sound knowledge of helicopter/aircraft load-bearing structures, with focus on structural integrity, stiffness, and load path optimization under both static, dynamic, and impact conditions. Familiarity with Fatigue requirement is plus. High experience aligned with the rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Strong awareness of static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Introductory knowledge about the analysis considerations for the any of the Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Expertise for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Familiar with structural analysis considerations related to assembly line constraints, ergonomic considerations, and sequence planning to ensure seamless integration in high-rate production environments. Additional Information:- The candidate should have a 8 to 9 years of practical experience static analysis/Dynamic analysis/ Impact Analysis in the Aerostructures domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. - This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Minimum 3 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Design and develop primary and secondary structural componentsboth metallic and compositefor rotary-wing aircraft, ensuring compliance with airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Use meshing and analysis guidelines for static, dynamic and impact analysis and ensure the FE models created by team are compiled to the guidelines and are of high quality. Perform the checks and prepare FEA V&V documents, capture the required checks for the FE models. Also ensure the physics of the problem is correctly simulated in the FE models and if required use your expertise and guidance to align with the requirements. Perform FEA analysis for static dynamic and impact analysis in alignment and compliance to the client specific and regulatory guidelines as per FAR 27/29CS/JAR/Military MIL-STD-1530 etc Take up team engagements and knowledge sharing sessions for distributed teams across the programs and locations. Design validation of structural through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection based on Analysis results and operational design environmental conditions. Document the details for presenting into the certification reports and certifying agencies. Provide supporting evidence for the selection of optimum design by static stress analysis Dynamic analysis and impact analysis evaluation of multiple structural design concepts through detailed trade-off analyses. Comply to schedule, weight requirement and cost compliance by efficiently tracking methods. Follow escalation mechanism to ensure compliance. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Provide analysis results for the decision process of selection of reliable concepts out of multiple concepts based on the static, dynamic and impact stress analysis validation with future operational and maintenance and repair considerations. Provide details from FE models for the weight estimation, its tracking, and control across all design phases, ensuring alignment with weight budgets and performance criteria. Perform the task of mitigating the low RF Low life and performance non-compliance issues based on discussion with SME/Leads or your expertise and experience. Align relevant details of these methods to SME/Leads to align with the client. Documentation of iterations and outcomes for future reference. Create the test FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Design validate through analysis or classical calculations the Incorporated features and design aspects covering the downstream manufacturing and inspection processes, accessibility and in-service replacement/repair. Prepare detailed presentation for reference and review. Assist in during customer technical audits, program quality gate reviews, and change control reviews by providing the required analysis results and justifications. Professional & Technical Skills:Experience with Aerospace projects for the design/development and integration of metallic, and composite helicopter aircraft structures for both primary and secondary components. Knowledge of Aerospace structures, their classification as primary, secondary and support structures based on load bearing capacities. Experience of static dynamic and impact analysis for sizing of large, fixed-wing or rotary wing aircraft for major OEMs. Exposure to weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Experience in process automation using MS excel VBA/Python etc Exposure to airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Knowledge of Preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Knowledge of certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with drawing standards. Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Automation experience using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analyses. FEA V&V methods, analysis as per the certification compliance, manufacturing support and certification. Create inputs for the test & test correlation activities specifically for rotary wing aircraft helicopter. Experience in the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Experience of aerospace material, structural feature simulation, analyses as per meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis, analysis error and post processing of Analysis results. knowledge of helicopter/aircraft load-bearing structures Experience aligned with the rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Familiarity with Fatigue requirement is plus. Experience in static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Exposure to Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Knowledge of structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Additional Information:- The candidate should have a 5 to 8 years of practical experience static analysis/Dynamic analysis/ Impact Analysis in the Aerostructures domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. - This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

About us At ExxonMobil, our vision is to lead in energy innovations that advance modern living and a net-zero future. As one of the world’s largest publicly traded energy and chemical companies, we are powered by a unique and diverse workforce fueled by the pride in what we do and what we stand for. The success of our Upstream, Product Solutions and Low Carbon Solutions businesses is the result of the talent, curiosity and drive of our people. They bring solutions every day to optimize our strategy in energy, chemicals, lubricants and lower-emissions technologies. We invite you to bring your ideas to ExxonMobil to help create sustainable solutions that improve quality of life and meet society’s evolving needs. Learn more about our What and our Why and how we can work together . What role you will play in our team We are seeking a skilled Solid Mechanics engineer to drive innovation and enhance our well performance across global assets. The role involves a combination of technical, analytical, and project management responsibilities to drive innovation and efficiency in upstream oil and gas operations and carbon capture and storage (CCS). What you will do Build computational models and simulations using proprietary and vendor tools to enhance design and operational practices and address evolving business needs. Design, build and execute parametric studies using simulation models to provide engineering design recommendations for business decisions. Conduct research and development on new technologies, methods, or best practices. Work with wells engineers, drilling and completion experts, computational and data scientists, and laboratory scientists across the globe to enhance understanding of subsurface technologies and tools. Create tutorials, documentation, training material or case studies. Prepare technical reports, presentations, and documentation for internal and external stakeholders. Mentor other engineers to help build their technical competencies in solids/fracture mechanics and modeling. About You Skills and Qualifications Master’s or PhD in Mechanical engineering, Aerospace engineering, Civil Engineering, or related disciplines with a minimum GPA 7.0. Up to 3 years of research/industrial experience in applying solids mechanics principles in solving business problems in the energy industry. Strong Solid Mechanics and Finite Element Method fundamentals and experience of working with a Finite Element tool (ABAQUS preferred) Preferred Qualifications Familiarity with data manipulation and visualization in any programming language (preferably Python or MATLAB) for analyzing experimental,simulation or sensor data. Experience in working with problems related to geomechanics, fracture mechanics is preferred. Experience in data science (e.g., machine learning, optimization) will be an added advantage. Demonstrated teamwork, communication and leadership skills are essential. Your benefits An ExxonMobil career is one designed to last. Our commitment to you runs deep our employees grow personally and professionally, with benefits built on our core categories of health, security, finance and life. We offer you: Competitive compensation Medical plans, maternity leave and benefits, life, accidental death and dismemberment benefits Retirement benefits Global networking & cross-functional opportunities Annual vacations & holidays Day care assistance program Training and development program Tuition assistance program Workplace flexibility policy Relocation program Transportation facility Please note benefits may change from time to time without notice, subject to applicable laws. The benefits programs are based on the Company’s eligibility guidelines. Stay connected with us Learn more about ExxonMobil in India, visit ExxonMobil India and Energy Factor India . Follow us on LinkedIn and Instagram Like us on Facebook Subscribe our channel at YouTube EEO Statement ExxonMobil is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, age, national origin or disability status. Business solicitation and recruiting scams ExxonMobil does not use recruiting or placement agencies that charge candidates an advance fee of any kind (e.g., placement fees, immigration processing fees, etc.). Follow the LINK to understand more about recruitment scams in the name of ExxonMobil. Nothing herein is intended to override the corporate separateness of local entities. Working relationships discussed herein do not necessarily represent a reporting connection, but may reflect a functional guidance, stewardship, or service relationship. Exxon Mobil Corporation has numerous affiliates, many with names that include ExxonMobil, Exxon, Esso and Mobil. 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Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Good to have skills : NA Minimum 3 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Design and develop primary and secondary structural componentsboth metallic and compositefor rotary-wing aircraft, ensuring compliance with airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Use meshing and analysis guidelines for static, dynamic and impact analysis and ensure the FE models created by team are compiled to the guidelines and are of high quality. Perform the checks and prepare FEA V&V documents, capture the required checks for the FE models. Also ensure the physics of the problem is correctly simulated in the FE models and if required use your expertise and guidance to align with the requirements. Perform FEA analysis for static dynamic and impact analysis in alignment and compliance to the client specific and regulatory guidelines as per FAR 27/29CS/JAR/Military MIL-STD-1530 etc Take up team engagements and knowledge sharing sessions for distributed teams across the programs and locations. Design validation of structural through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection based on Analysis results and operational design environmental conditions. Document the details for presenting into the certification reports and certifying agencies. Provide supporting evidence for the selection of optimum design by static stress analysis Dynamic analysis and impact analysis evaluation of multiple structural design concepts through detailed trade-off analyses. Comply to schedule, weight requirement and cost compliance by efficiently tracking methods. Follow escalation mechanism to ensure compliance. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Provide analysis results for the decision process of selection of reliable concepts out of multiple concepts based on the static, dynamic and impact stress analysis validation with future operational and maintenance and repair considerations. Provide details from FE models for the weight estimation, its tracking, and control across all design phases, ensuring alignment with weight budgets and performance criteria. Perform the task of mitigating the low RF Low life and performance non-compliance issues based on discussion with SME/Leads or your expertise and experience. Align relevant details of these methods to SME/Leads to align with the client. Documentation of iterations and outcomes for future reference. Create the test FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Design validate through analysis or classical calculations the Incorporated features and design aspects covering the downstream manufacturing and inspection processes, accessibility and in-service replacement/repair. Prepare detailed presentation for reference and review. Assist in during customer technical audits, program quality gate reviews, and change control reviews by providing the required analysis results and justifications. Professional & Technical Skills:Experience with Aerospace projects for the design/development and integration of metallic, and composite helicopter aircraft structures for both primary and secondary components. Knowledge of Aerospace structures, their classification as primary, secondary and support structures based on load bearing capacities. Experience of static dynamic and impact analysis for sizing of large, fixed-wing or rotary wing aircraft for major OEMs. Exposure to weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Experience in process automation using MS excel VBA/Python etc Exposure to airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Knowledge of Preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Knowledge of certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with drawing standards. Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Automation experience using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analyses. FEA V&V methods, analysis as per the certification compliance, manufacturing support and certification. Create inputs for the test & test correlation activities specifically for rotary wing aircraft helicopter. Experience in the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Experience of aerospace material, structural feature simulation, analyses as per meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis, analysis error and post processing of Analysis results. knowledge of helicopter/aircraft load-bearing structures Experience aligned with the rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Familiarity with Fatigue requirement is plus. Experience in static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Exposure to Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Knowledge of structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Additional Information:- The candidate should have a 5 to 8 years of practical experience static analysis/Dynamic analysis/ Impact Analysis in the Aerostructures domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. - This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Fatigue & Damage Tolerance F&DT Good to have skills : NA Minimum 5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Execution of comprehensive fatigue and damage tolerance analysis for metallic and composite structural parts related to design and development of rotary wing aircrafts primary and secondary structures. Provide execution insight and facilitate the team with interpretation of static analysis results for defining the fatigue critical location, number of calculation points, fatigue sensitive area, primary and secondary load path identification, design philosophy identification, scatter factor selection in alignment with client and regulatory guidelines FAR/CS 25.571, 29.571, MIL-STD-1530 etc. Understand the meshing and analysis guidelines for static and fatigue analysis and ensure the FE models created by team for F&DT justifications are compiled to the guidelines and are of high quality. Ensure that the V&V documents capture the required checks for the FE models. Also ensure the specific considerations for the fatigue evaluation is correctly captured and simulated in the FE models and if required use your expertise and guidance to align with the requirements. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Identify the fatigue critical locations based on highly stressed areas from static analysis results, safety critical parts and the standard features which irrespective of stress value need to be checked. Down select the number of calculation points and align with the client on this. Decision basis for selection of reliable concepts out of multiple concepts based on the static and F&DT justification validations and compliance including future operational and maintenance and repair considerations. Enable F&DT team with expertise for generation of fatigue test plan (full scale and component level test), interpretation of test results and correlation with analysis in the test report. Review the outputs. Level II checker approver signatory for F&DT analysis certification reports, F&DT test plan, test orders and F&DT test reports. Enable team engagements and knowledge sharing for distributed teams across the programs and locations. Technically lead and guide the team for mitigating the low fatigue and crack growth life and F&DT performance non-compliance issues based on your expertise and experience. Align these methods with clients and document it as reference documents. Incorporate features and design aspects covering the downstream manufacturing and inspection processes, accessibility and in-service replacement/repair. Technically lead for aligning customer expectations with engineering deliverables and strategic goals. Collaborate and lead cross-functionally with design manufacturing quality, and systems teams. Technical interface with the client, ensuring timely issue resolutions, aligning design mitigations and any deviations needed w.r.t processes, methods, inputs, and deliverables. Professional & Technical Skills:Expertise and work experience in the design/development and integration of metallic, sheet metal, and composite helicopter aircraft structures for both primary and secondary components from F&DT point of view. Experience of implementing the weight optimization techniques, load path optimization, fatigue and damage tolerance analysis for helicopter/aircraft certification and testing activities. Knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of F&DT test plan, test orders, test load derivation and test to analysis correlation reports for component level and full-scale structural tests for rotary wing aircrafts. Exposure to certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with drawing standards. Any experience in process automation using MS excel VBA/Python etc Proficient in FEA and F&DT tools is essential with experience in NASGRO FRANC 3D MSC FATIGUE, MSC NASTRAN/PATRAN, HyperMesh/Optistrucut. or similar tools is a strong plus. Automation experience using Excel MACROS & VBA Python and CATIA V5 is a plus. Proven experience for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Working experience related to aircraft materials, fatigue phenomenon, fracture mechanics concepts, fatigue spectrum derivation, probabilistic fatigue and crack growth assessments. Sound knowledge of primary and secondary load paths, structural classification and their relevance for the F&DT justification. Expertise in structural classification, related F&DT compliance, calculation points and their down selection, selection of scatter factors. Deep knowledge of FEA considerations and their incorporation in the meshing requirements for F&DT Analysis. Experience in end-to-end concept to design validation, manufacturability, certification and F&DT certification test and test correlation activities for preferably rotary wing aircraft helicopter certification. In-depth understanding of helicopter/aircraft load-bearing structures, structural response with focus on structural integrity, stiffness, and load path optimization under both static and Fatigue conditions. Knowledge of failure modes relevant to metallic and composite airframe components. Experience for low cycles and high cycle fatigue analysis for fixed wing or rotary wing aircrafts. Exposure to functional considerations like telescopic, foldability swivel and reversal of structure. Any specialization/certification in F&DT/Fracture mechanics/fatigue life extension etc will be a plus. Additional Information:- The candidate should have 9 to 12 years of practical experience in the Aerostructures fatigue and damage tolerance analysis domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education

Project Role : Engineering Services Practitioner Project Role Description : Assist with end-to-end engineering services to develop technical engineering solutions to solve problems and achieve business objectives. Solve engineering problems and achieve business objectives using scientific, socio-economic, technical knowledge and practical experience. Work across structural and stress design, qualification, configuration and technical management. Must have skills : Aircraft Structural Analysis Minimum 5 year(s) of experience is required Educational Qualification : 15 years full time education Summary :As a Mechanical Engineering Practitioner, you will design, analyze, and build structures, machines, devices, systems, and mechanical processes. A strategic aerospace engineering leader specializing in rotary wing platforms, with a strong track record in driving technical delivery, innovation, and client satisfaction. Experienced in shaping engineering processes, delivery governance, and team capability development. Proven ability to influence design and compliance strategies through direct engagement with OEMs, Tier-1 suppliers, and regulatory bodies. Passionate about digital transformation, with a focus on advancing MBSE, MBD, and digital continuity across the product lifecycle. Roles & Responsibilities:You will join the Aerostructure Engineering team, contributing across the full engineering lifecyclefrom initial concept and design through certification and build line supportcovering end-to-end (E2E) responsibilities. Key responsibilities include the design and development of primary and secondary structural components (both metallic and composite materials), assemblies, and system installations for a range of fixed-wing and rotary-wing aircraft platforms. Design and develop primary and secondary structural componentsboth metallic and compositefor rotary-wing aircraft, ensuring compliance with airworthiness regulations, structural integrity requirements, and OEM-specific design standards. Understand the meshing and analysis guidelines for static, dynamic and impact analysis and ensure the FE models created by team are complied to the guidelines and are of high quality. Ensure that the V&V documents capture the required checks for the FE models. Also ensure the physics of the problem is correctly simulated in the FE models and if required use your expertise and guidance to align with the requirements. Ensure alignment and compliance to the client specific and regulatory guidelines as per FAR 27/29CS/JAR/Military MIL-STD-1530 etc Enable team engagements and knowledge sharing for distributed teams across the programs and locations. Validate the design of structural through Classical and FE Analysis, and assist in detailed load path analysis, optimal material selection based on Analysis results and operational design environmental conditions. Owning optimum design by static stress analysis Dynamic analysis and impact analysis evaluation of multiple structural design concepts through detailed trade-off analyses. Develop 3D and 2D FE models using specified software, adhering to industry and customer-specific modelling and analysis standards and guidelines. Perform weight estimation, its tracking, and control across all design phases, ensuring alignment with weight budgets and performance criteria. Technically lead and guide the team for mitigating the low RF Low life and performance non-compliance issues. Create the test FE models incorporating the failure, features and boundary conditions as per standard procedure and test fixture. Creating the method register, Method document, check lists and report templates in compliance with regulatory and client specific requirements. Front end and act as the technical interface with the client, ensuring alignment on deviations and processes, methods, inputs, overall objectives and deliverables. Interact with clients on a regular basis to track and classify the issues and ensure timely resolution of the issues as per SLA. Assist in during customer technical audits, program quality gate reviews, and change control reviews. Support and mentor junior team members by providing technical guidance, sharing best practices, and fostering their growth in design methodologies, tools, and domain knowledge. Actively contributes to skill development, knowledge transfer, and team capability building through hands-on support and constructive feedback. Professional & Technical Skills:Expertise in the design/development and integration of metallic, sheet metal, and composite helicopter aircraft structures for both primary and secondary components from Static point of view. Experience of static dynamic and impact analysis for sizing of large, fixed wing or rotary wing aircraft. Experience in weight optimization techniques, load path optimization for helicopter/aircraft certification and testing activities. Any experience in process automation using MS excel VBA/Python etc Strong knowledge of airworthiness compliance regulations (e.g., CS-27/29, FAR 23/25), OEM design standards, and FAA/EASA certification processes. Experience in preparation of full scale and component level certification test plan, test orders, test load derivation and test to analysis correlation reports for component level for fixed wing or rotary wing aircrafts. Certification testing and test correlation, life extension and fatigue resistant structure design. Familiarity with GD & T and drawing standards. Proficiency over the structural static dynamic and impact analysis tools like general MSC NASTRAN/PATRAN/ABAQUS/ HyperMesh/ OptistructLS DYANA is must, Automation experience using Excel MACROS & VBA Python and Catia V5 is a plus. FEA considerations and meshing requirements for different types of structural analyses like static, dynamic, buckling and impact analyses. End to end validation, certification compliance, manufacturing support and certification test & test correlation activities specifically for rotary wing aircraft helicopter. High level skills and experience in the 2D/3D mesh creation and meshing guidelines, FE Modelling, and Assembly integration methodologies. Experience of aerospace material selection, structural feature simulation, analyses and meshing guidelines and procedures. Capability to solve day to day analysis problem in Analysis and post processing of Analysis results. Sound knowledge of helicopter/aircraft load-bearing structures, with focus on structural integrity, stiffness, and load path optimization under both static, dynamic, and impact conditions. Familiarity with Fatigue requirement is plus. High experience aligned with the rotary wing or fixed wing structural arrangement, primary, secondary and support structures, load path, sizing procedures for metallic and composite structures. Strong awareness of static dynamic and impact strength justification analyses and failure modes relevant to metallic and composite airframe components. Introductory knowledge about the analysis considerations for the any of the Innovative design and functional considerations like telescopic structures, foldability swivel and reversal of structure. Expertise for structural sizing of aerospace and rotary wing aircraft structural parts meeting certification, testing and manufacturability requirements. Familiar with structural analysis considerations related to assembly line constraints, ergonomic considerations, and sequence planning to ensure seamless integration in high-rate production environments. Additional Information:- The candidate should have a 8 to 9 years of practical experience static analysis/Dynamic analysis/ Impact Analysis in the Aerostructures domain, preferably with exposure to rotary-wing aircraft platforms and full design cycle involvement. - This position is based at client location Bengaluru and 6 days a workweek requiring 8 working hours per day.- A B Tech/M Tech in Aerospace, Aeronautical, or Mechanical Engineering is required Qualification 15 years full time education