Ryerson has an opportunity for a Technical Programmer at our Excelsior facility in Fresno, CA. As a Technical Programmer, you are responsible for preparing work orders in priority for the Production team, estimating and order raw materials and hardware, and converting customers drawings and ideas into manufactural parts and assemblies that can be built with our current capabilities and subcontractors.
The future will be made from metal. At Ryerson, you have the opportunity to grow in your career, work with teammates that feel like family, and help make our world a better place.
Roles and Responsibilities:
Use technical expertise to determine feasibility, estimate material requirements, and collaborate with internal and external resources to seek optimal solutions for the customer and production
Reverse engineer customers drawings, parts and or assemblies using measuring tools and trigonometry
Interpret customer drawings and produce detailed shop prints and flat layouts used for the manufacturing processing
Understand and utilize CNC equipment nesting/programming software. Insure operator and machine safety, material utilization and process efficiencies
Collaborate with customers and account managers to develop an understanding of technical and commercial requirements of new products or projects
Perform other related duties as assigned
Maintain documents, drawings, files and work instructions to Excelsior standards.
Position Requirements:
HS diploma or GED required, Bachelor's degree or Associates degree preferred.
3-5 years' experience in custom manufacturing
Experience in drawing and blueprint interpretation and proven ability to convert 3D models into flat layouts
Communication skills to ensure customer needs are communicated and executed
SolidWorks or similar 3D CAD software experience
Experience with Microsoft Office Suit (email, word and excel)
The individual must be detail oriented and deliver consistently accurate work product
Strong experience in current and future manufacturing capabilities
Proven capabilities in material selections for design a manufacturability