Lead Engineer Additive Manufacturing Technology Integration

  • 電子部品(電源)
  • 研究開発


Duties: Coordinate AM design activities and data development (incl. cooperation with R&D and AM manufacturing) within assigned tasks and projects.
Drive development of AM design community and support to roll-out the technology, innovations, AM Design guidelines and collect best practices of the development. Foster cooperation and support Product Lines Management with regards to implementation on customer engines. Drive development of strategy of AM (part vs. technology development) for the organisation. Monitor development of AM technology. Cooperation with external partners within technology development programs. Perform Mechanical Integrity of components and structures. Create Invention Disclosures and Patent Applications.





Project management and leadership within complex matrix organization (cross cultural, multi- disciplinary), from Idea to Validation. Technology, new product, R&D, small/large scope.
Experience gained in various industries: automotive, power and aerospace in Switzerland, Germany, France, Japan, Poland.
Leading design groups focused on development and industrialization of hot gas components (nickel based alloys, turbine, combustion) to be Additively Manufactured (powder bed - Selective Laser Melting).
Wide engineering know-how of industrialization of AM technology (SLM):
- Critical to Quality factors for design/manufacturing
- Design for AM
- Best Practices, Design Directives
- Define roadmaps and strategies for future development.
Innovative and solution oriented approaches.
Solid commitment to the mechanical engineering profession.
Strong experience in numerical assessments of structural components:
- under cyclic thermo-mechanical loads: Lifetime and validation assessments.
- non-linear geometrical and material assessments
- lightweight structures
- isotropic and orthotropic materials, composites, laminates
- High speed simulations - crash worthiness analysis
- numerical optimization of structural parts to manufacturing and design objectives
- nonconformances of damaged structures
- Finite Element assessments, lifetime assessments, structural optimization.