As a Tooling Engineer at Visteon, you will play a crucial role in enabling a software-defined, electrified future by providing guidance and expertise in the areas of Sheet metal, Diecasting, and plastic. You will serve as the primary consultant to Product Development (PD) and suppliers, ensuring manufacturing feasibility and offering vision and solutions on Mechanics to achieve company goals. Key Responsibilities:
Conduct New Project Design Review, Analysis, Engineering Change Notice (ECN), and Modification
Select stamping material and die casting
Choose between Progressive Tool or Stage tools
Develop concept design layouts
Optimize concepts to reduce the number of stages
Analyze failures during trial phases and make necessary design/tool changes for improvement
Verify and approve part 2D drawings and assembly instructions
Participate in Design Failure Modes and Effects Analysis (DFMEA) to identify potential failures and suggest improvements
Execute and implement new projects within the company
Participate in tool trials at local or overseas factories and provide approvals for sourcing and Quality teams
Approve molds, jigs, and fixtures used in project development at the supplier end
Validate tools and conduct tool buy-off activities
Lead and approve Mechanical Design Reviews from a tooling perspective
Support mechanical risk assessments on projects
Provide technical guidance, mentoring, and coaching to mechanical engineers
Create or update guidelines and share Lessons Learned with the mechanical engineering community
Support Value Analysis/Value Engineering (VAVE) initiatives and drive innovations in the Mechanical domain
Provide technical solutions and vision to Executive Leadership
Support tooling process based on selected materials
Engage in cost reduction activities
Key Responsibilities:
Conduct New Project Design Review, Analysis, Engineering Change Notice (ECN), and Modification
Select stamping material and die casting
Choose between Progressive Tool or Stage tools
Develop concept design layouts
Optimize concepts to reduce the number of stages
Analyze failures during trial phases and make necessary design/tool changes for improvement
Verify and approve part 2D drawings and assembly instructions
Participate in Design Failure Modes and Effects Analysis (DFMEA) to identify potential failures and suggest improvements
Execute and implement new projects within the company
Participate in tool trials at local or overseas factories and provide approvals for sourcing and Quality teams
Approve molds, jigs, and fixtures used in project development at the supplier end
Validate tools and conduct tool buy-off activities