Sr Industrial Engineer

About The Position

Requirements

• Bachelor’s degree in Industrial Engineering , Civil engineering or related technical discipline required.
• Seven(7) or more years of progressive experience in manufacturing system design, PFMEA leadership, risk assessment execution, ergonomic analysis, and industrialization within complex assembly environments.
• Demonstrated experience with large-form assemblies, DFA/DFM leadership, facility layout redesign, labor modeling, and cross-functional project execution.
• Proven ability to lead measurable safety improvements, risk reduction initiatives, and financial performance gains.
• Must be able to obtain and maintain all required job-related certifications.

Responsibilities

• Recruit and interview Industrial Engineers and Manufacturing Engineers.
• Communicate criteria to recruiters for Sr. Industrial Engineer candidates.
• Coach engineers in structured problem solving, PFMEA methodology, and risk-based decision making.
• Monitor team member turnover; identify key factors that can be improved; implement retention improvements.
• Identify individual and team strengths and development needs on an ongoing basis.
• Create and/or validate industrial engineering training curriculum in work measurement, labor modeling, ergonomics, PFMEA, and risk mitigation.
• Develop and maintain training aligned to LFA manufacturing environments and advanced facility design.
• Mentor engineers to design safe, ergonomic, scalable, and financially optimized production systems.
• Establish clear, measurable goals tied to productivity, labor efficiency, ergonomic risk reduction, floor space optimization, yield performance, and safety metrics.
• Solicit ongoing feedback from Engineering Management, Workcell Managers (WCM), Business Unit Director (BUD), peers, and team members.
• Provide ongoing coaching and counseling based on KPI performance and risk exposure.
• Establish measurable goals tied to cost reduction, throughput, risk mitigation, and NPI readiness.
• Drive continuous improvement in operational, safety, and ergonomic KPIs.
• Coordinate engineering execution during launches, facility modifications, capacity expansions, or production escalations.
• Provide a communication forum for the exchange of ideas and information within the department and cross-functional teams.
• Present risk assessments, PFMEA results, and mitigation strategies clearly to leadership.
• Encourage input from team members during risk reviews and process design sessions.
• Adapt communication style to diverse audiences including Operations, Facilities, Quality, and Executive Leadership.
• Understand campus strategic direction and growth roadmap.
• Define and implement industrial engineering strategies that integrate risk-based decision making into manufacturing system design.
• Ensure facility and layout strategies support long-term scalability, safety compliance, and ergonomic sustainability.
• Provide regular updates to Engineering Leadership on risk posture, mitigation actions, and system robustness.
• Identify creative ways to reduce cost by streamlining processes, reducing ergonomic strain, and eliminating non-value-added activity.
• Lead cost-avoidance initiatives through early risk identification and mitigation.
• Drive cost-down initiatives through DFA/DFM collaboration and PFMEA-driven improvements.
• Utilize analytical tools to monitor departmental cost, safety trends, and productivity performance.
• Serve as Lead Industrial Engineer for assigned workcells and programs.
• Architect scalable manufacturing systems for large mechanical and electrical assemblies.
• Lead comprehensive PFMEA activities to identify process risks, failure modes, and control gaps prior to launch and during sustaining production.
• Conduct formal risk assessments for new equipment, layout changes, process modifications, and facility upgrades.
• Develop mitigation strategies to reduce operational, safety, quality, and capacity risks.
• Lead ergonomic assessments including: • Repetitive motion analysis • Lifting and load evaluations • Reach zone optimization • Workstation height and adjustability validation • Fatigue reduction strategies • Compliance with ergonomic standards and best practices
• Lead facility layout design including production flow, staging, warehouse integration, receiving, shipping, PFEP, and detrash strategies.
• Support building and infrastructure modifications including: • Utility capacity planning (power, air, water, drainage) • Pit and foundation requirements • Structural modifications impacting production flow • Equipment footprint and heavy material handling paths
• Lead Design for Manufacturability (DFM) and Design for Assembly (DFA) reviews during NPI.
• Drive part count reduction, assembly simplification, ergonomic risk mitigation, and process standardization.
• Develop advanced labor models incorporating takt time, efficiency, yield, and demand variability.
• Own time studies, work measurement systems, and labor standards validation.
• Build and maintain capacity models supporting shift strategy and growth planning.
• Identify bottlenecks and implement data-driven corrective actions.
• Lead layout simulations and material flow optimization studies.
• Support quoting activities with detailed labor, facility, and risk-based cost analysis.
• Partner with Manufacturing Engineering, Quality, Facilities, EHS, and Operations to deploy safe and scalable production systems.
• Enforce adherence to EHS, safety, and risk mitigation policies across all industrial engineering activities.