Engineer II / Senior Mechanical Engineer, Sustaining Engineering

Lila Sciences Lila Sciences · AI Frontier · One Charles Park, Cambridge, MA · Autonomous Science Platform

Mechanical Engineer II/Senior Engineer on Sustaining Engineering team to improve reliability, uptime, and lifecycle performance of deployed bench-scale robotics and mechanical systems. Focuses on sustaining and improving fielded robotic workcells, with ownership across troubleshooting, root cause analysis, preventive maintenance, design fixes, and targeted reliability improvements. Supports mechanical systems used across life science and physical science automation.

What you'd actually do

  1. Maintain, troubleshoot, and improve deployed bench-scale robotics and mechanical systems used in scientific automation workflows.
  2. Diagnose failures across pneumatic, electromechanical, optical, and mechanical subsystems, then implement durable corrective actions.
  3. Use SolidWorks CAD and analysis to design replacement parts, retrofits, fixtures, and reliability improvements.
  4. Create and validate prototypes, spares, and design fixes using 3D printing, laser cutting, and other rapid fabrication methods.
  5. Perform structured root cause analysis using methods such as 5 Whys and fishbone diagrams.

Skills

Required

  • mechanical engineering
  • robotics
  • laboratory automation
  • SolidWorks CAD
  • GD&T
  • DFMA
  • troubleshooting mechanical systems
  • requirement management
  • product lifecycle management
  • product data management systems

Nice to have

  • sustaining automated systems
  • life science
  • physical science
  • biotech
  • manufacturing
  • PDM Vault management
  • rapid prototyping
  • mechanical testing
  • field reliability workflows
  • motion control
  • mechatronic systems
  • robotic integration
  • discrete material movement
  • production ramp
  • process optimization
  • automotive
  • battery
  • semiconductor
  • packaging
  • documentation
  • standards adherence
  • equipment management
  • controlled change processes

What the JD emphasized

  • rapid issue resolution
  • targeted design improvements
  • troubleshooting mechanical systems under operational pressure