Efficiency, quality, and safety drive innovation in manufacturing engineering.
Key Responsibilities
* Manufacturing systems undergo alteration to boost efficiency, product quality, and safety through the implementation of Engineering Change Orders or New Product Development. This includes new part configurations, set-up management, open production orders, manufacturing routing, master data management, and assembly instruction updates.
* Standard Operating Procedures are developed within A.Is that encompass safe working practices.
* Leader Standard Work systems promote audit and daily management to sustain improvements in safety.
* Lean tools enhance manufacturing Quality performance through process improvement skills.
* Daily improvement processes are developed through Lean Daily Management Structures.
* The shift towards digital instructions reduces paper-based processes.
* Design Engineering Process change owners collaborate to ensure optimal effectivity dates, limiting obsolete stock.
* Sourcing teams update and maintain PFEP (Plan For Every Part) to establish inventory amounts, locations, and replenishments.
* JIT (Just In Time) processes reduce work in progress.
* Analysis, modelling, and simulation of big data from sensors and devices support MES (Manufacturing Excellence Systems) development.