Hardware Design Engineer Ii, Vulcan Stow

Amazon Amazon · Big Tech · Seattle, WA · Hardware Development

This role focuses on the design, development, validation, and sustainment of electromechanical hardware for large-scale robotic systems in Amazon's fulfillment centers. The engineer will manage the full product lifecycle, from concept to production and field support, collaborating with interdisciplinary teams. Key responsibilities include component design, manufacturing integration, sustaining engineering, and ensuring compliance with safety standards. The role emphasizes hands-on engineering, data-driven decisions, and a cradle-to-grave ownership approach.

What you'd actually do

  1. Work with an interdisciplinary team to improve and maintain existing product designs including specification, design, prototyping, validation, and testing of electromechanical robotic components and assemblies
  2. Design parts for volume manufacturing methods including sheet metal fabrication, injection molded plastics, high-pressure die casting, stamping, extrusion, and machining — understanding the trade-offs between each method
  3. Apply Design for Excellence (DfX) principles throughout the design process: design for manufacturability (DFM), design for assembly (DFA), design for maintenance, design for reliability, and design for installation
  4. Write requirements and functional specifications, design verification plans (DVPs), and functional test procedures
  5. Create and maintain engineering drawings per GD&T (ASME Y14.5) standards

Skills

Required

  • Bachelor's degree in mechanical engineering or equivalent
  • 2+ years of working in mechanical engineering or equivalent experience
  • Experience with prototyping and implementation
  • CAD modeling
  • GD&T
  • Design for Manufacturability (DFM)
  • Design for Assembly (DFA)
  • Statistical analysis methods
  • Design of Experiments (DOE)

Nice to have

  • SolidWorks simulation
  • knowledge of A

What the JD emphasized

  • cradle-to-grave ownership
  • hands-on engineer
  • deliver robust, cost-effective hardware
  • design for manufacturability (DFM)
  • design for assembly (DFA)
  • design for maintenance
  • design for reliability
  • design for installation
  • cradle-to-grave lifecycle support
  • root cause analysis
  • failure analysis
  • design improvements
  • machine safety standards
  • functional safety requirements