We are seeking an experienced Industrial Engineer with 3+ years of experience. Responsibilities include process analysis, optimization, and improvement. Responsibilities: Process Analysis: Conduct in-depth analysis of existing production processes within our leather manufacturing operations, identifying bottlenecks, inefficiencies, and areas for improvement. Optimization: Develop and implement strategies to optimize workflows, resource utilization (labor, machinery, materials), and production layouts to maximize output and reduce waste. Process Improvement: Design, test, and implement new or revised processes, tools, and systems to enhance productivity, quality, and cost-effectiveness in leather production. Time and Motion Studies: Perform time and motion studies to establish standard times, improve work methods, and balance production lines. Lean Manufacturing & Six Sigma: Apply principles of Lean Manufacturing, Six Sigma, and other industrial engineering methodologies to drive operational excellence. Data Analysis & Reporting: Collect, analyze, and interpret production data to identify trends, measure performance, and report on the impact of implemented improvements. Collaboration: Work closely with production managers, quality control, maintenance, and other departments to ensure seamless integration of new processes and solutions. Problem-Solving: Troubleshoot operational issues and develop sustainable solutions to complex production challenges. Documentation: Create and maintain detailed documentation for processes, standard operating procedures (SOPs), and engineering changes.
We are seeking an experienced Industrial Engineer with 3+ years of experience. Responsibilities include process analysis, optimization, and improvement. Responsibilities: Process Analysis & Mapping: Conduct in-depth analysis of existing operational processes, workflows, and systems across production, logistics, quality, and administrative functions. Map current-state processes (e.g., value stream mapping, flowcharts) to identify inefficiencies, waste (Muda), bottlenecks, and areas for improvement. Collect and analyze data related to cycle times, resource utilization, labor efficiency, material flow, and production output. Optimization & Improvement: Develop and implement innovative solutions to optimize processes, reduce waste, improve productivity, and enhance overall operational efficiency. Design and recommend layout changes, workstation improvements, and material handling systems to streamline operations. Apply lean manufacturing principles (e.g., 5S, Kaizen, Kanban, SMED) and Six Sigma methodologies to achieve process excellence. Develop and implement standard operating procedures (SOPs) to ensure consistent and efficient process execution. Performance Measurement & Reporting: Establish key performance indicators (KPIs) to monitor process performance and track the effectiveness of implemented improvements. Prepare and present detailed reports on findings, recommendations, and the impact of improvement initiatives to management. Conduct time studies, work sampling, and motion analysis to set performance standards and identify opportunities for labor optimization. Project Management & Collaboration: Lead or participate in cross-functional improvement projects, collaborating with production, quality, supply chain, IT, and other relevant teams. Manage project timelines, resources, and deliverables effectively. Provide training and mentorship to team members on industrial engineering principles and tools. Foster a culture of continuous improvement within the organization. Technology & Tools: Utilize industrial engineering software and tools for simulation, layout design, data analysis, and optimization. Stay updated with the latest trends and technologies in industrial engineering and operational excellence.