Mechanical Engineering Intern, Advanced Engineering

Lila Sciences•Cambridge, MA

About The Position

Lila Lila Sciences is seeking a Mechanical Engineer Intern to join our Advanced Engineering team for the summer. You'll gain hands-on experience designing components for bench-scale robotics, mechanical systems, and automation. Working alongside experimental scientists, AI/ML scientists, and software/controls engineers, you'll engage in CAD design, analysis, prototyping, 3D printing, assembly, and testing. Your efforts will help accelerate our physical hardware designs which support the experimental execution and data collection of life science and physical science workflows.

Requirements

Currently pursuing a Bachelor's degree in Mechanical Engineering, Robotics, or a related field
Hands-on experience with SolidWorks CAD (Parts and Assemblies) or similar parametric 3D CAD software — SolidWorks PDM experience is a plus
Comfortable juggling input from multiple teams and stakeholders without losing momentum
A builder's mindset: you're proactive, curious, and energized by figuring things out in a fast-moving environment
Strong collaboration and communication skills — you can work across disciplines and make your thinking clear
Sharp attention to detail and a genuine drive to solve hard problems
An interest in life science or physical science automation, and excitement about what's possible when AI meets the lab

Nice To Haves

Familiarity with GD&T and designing parts for specific fabrication methods (milling, lathing, sheet metal, 3D printing)
Previous internship or co-op experience in industrial automation, lab automation, or R&D
Exposure to robotics, industrial controls, or electrical engineering
Basic familiarity with automation software, robotics programming, or industrial electronics

Responsibilities

Partner with scientific and engineering teams to develop concepts and evaluate tradeoffs for instruments, workcells, and lab automation hardware
Use SolidWorks (Parts, Assemblies, and PDM Vault) to design and iterate on components and assemblies for bench-scale robotics and autonomous lab systems
Use resources creatively to design, build, and test prototypes — from static fixtures to multi-axis motion assemblies — to rapidly validate concepts in support of life science and physical science workflows
Work cross-functionally with scientists, controls engineers, software engineers, and external suppliers to review designs and integrate mechanical solutions into the broader AISF platform
Design, build, and run electromechanical test setups to prove reliability of critical workcell components and lab automation instruments
Evaluate designs at the component, instrument, and fully integrated workcell level using tools like FMEAs and design reviews
Root cause hardware failures and develop tests to replicate and resolve failure modes
Document your work so that others can easily understand key decisions made and build upon your contributions

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