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Methods and Industrialization Engineer lead the manufacturing scaling of our aerospace hydraulic systems and components. In this role, will bridge the gap between design engineering and the shop floor, converting assembly and hydraulic schematics, test procedure, …into robust, repeatable, production workflows. Methods and Industrialization Engineer will focus on optimizing cleaning, assembly and test methods while meeting AS9100 regulatory standards.
Job Responsibility
New Product Introduction (NPI): Lead the industrial transfer of aerospace components
Process Industrialization: Lead the manufacturing launch of hydraulic components (valves, actuators, pumps, manifolds)
Methods & Time Optimization: Conduct time-motion studies, balance assembly sequences, and design ergonomic workstations to reduce cycle times and eliminate assembly bottlenecks
Cleanroom & Contamination Control: Establish and monitor strict production methods to prevent particulate contamination, ensuring compliance with aerospace hydraulic cleanliness standards
Tooling & Test Rig Integration: Define specifications, validate, and commission custom jigs, fixtures, and high-pressure hydraulic test equipment (Proof/Burst testing, functional testing)
Standardization: Author and maintain detailed Standard Operating Procedures (SOPs), production routings, and visual work instructions using PLM/CAD models
Continuous Improvement: Lead root-cause analysis (8D, 5 Whys, Fishbone) for shop floor failures, internal scrap, or test failures, implementing PFMEA to mitigate future risks
Cross-Functional Collaboration: Partner with Design Engineering to ensure product manufacturability and work directly with Quality and Production teams to solve day-to-day manufacturing deviations
Requirements
Bachelor's degree in Mechanical Engineering, Aerospace Engineering, Manufacturing Engineering, or a related technical field
Experience: 3 to 6 years of manufacturing engineering experience, with a direct focus on aerospace hydraulic, pneumatic, or high-pressure fluid systems
Deep understanding of precision assembly tolerances, metal finishing, O-ring/seal installation, and automated hydraulic test setups
Product Lifecycle Management (PLM) data
Solid foundation in AS9100 quality management systems, non-conformance management (MRB), and aerospace traceability requirements
Program and stakeholder management
Supportability engineering expertise
Analytical decision making and continuous improvement mindset
Cross functional collaboration and customer relationship management