- Will help develop all of the company's products from concept, through design, and in to volume manufacturing.
- The role will work on mechanisms, actuators, create Test Plans and Reports, create ECO's, and support continuing engineering activities.
- The role also requires strong opto-mechanical knowledge.
- Design and analyze mechanical parts.
- Manage complex product assemblies in SolidWorks.
- Work closely with electrical engineers to develop tightly integrated, compact electromechanical solutions.
- Source and collaborate with engineering consultants, industrial designers, contract manufacturers, and parts vendors.
- Take products through engineering analysis and design validation testing phases using skills of both the internal team and outside resources such as test labs and consultants.
- Cooperate with manufacturing organization and outside vendors in creating fixtures manufacturing and testing.
- The Cost Forensics Lab (CFL), part of Global Procurement, was created to facilitate gross margin improvement and alignment of manufacturing entitlement with product design.
- Support GMI opportunities by completing Should Cost Analysis of client parts.
Requirements
- Combining manufacturing experience with the CFLs templates and process you will.
- BS or advanced degree in Mechanical Engineering or related fields.
- Minimum 5 years’ experience as a Mechanical Engineer.
- Experience in design of precision optical systems required.
- Good CAD skills preferably in SolidWorks.
- Ability to integrate complex ID surfaces.
- Familiarity with CAE tools with regards to thermal dissipation, stress strain, and impact.
- Experience with design and requirements of medical devices is a plus.
- Knowledge of statistical tolerance analysis.
- Broad knowledge of opto-mechanical components and systems.
- 7-9 Years of experience.
- Client Laboratory is a leading manufacturer of medical equipment around the world.
- Degreed Engineer with design and manufacturing knowledge across various processes.
- 3 years’ experience in Should Cost Analysis.
- A Should Cost model is a documented calculation of a suppliers price or service delivered to client. It is a detailed analysis of material, labor, overhead and profits.
- Mechanical Manufacturing processes: Machining, Injection Molding, Extrusion, Casting, Wire Drawing, Metal Forming operations, Sheet Metal, Welding, Thermoforming (High and Low Volume methods), etc.
- Materials: CRS, SS, Polymers, Nitinol, Pt/Ir Alloys.
- Electrical: PCB manufacturing, Test.
- Assembly: Automated processes, Semi-Automated.
- Packaging: Cardboard containers, Formed Particle board, Tyvek pouches.
- Sterilization: EOS, Gamma, etc.
- Capable of creating templates in excel to simplify the analysis process across multiple technologies.
- Metrology, Composition, Analysis, FEA, DFM, DFSS.
- Presentation, Excel (Array construction, Pivot tables, V-H-X Look ups, and Charts).
- Degreed Engineer with design and manufacturing knowledge across various processes.
- 3 years’ experience in Should Cost Analysis.
- A Should Cost model is a documented calculation of a suppliers price or service delivered to client. It is a detailed analysis of material, labor, overhead and profits.
As an equal opportunity employer, ICONMA provides an employment environment that supports and encourages the abilities of all persons without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state, or local laws.