Mechanical Engineer, Soft Goods Design
OpenAIAbout the Team
Our Robotics team is focused on unlocking general-purpose robotics and pushing towards AGI-level intelligence in dynamic, real-world settings. Working across the entire model stack, we integrate cutting-edge hardware and software to explore a broad range of robotic form factors. We strive to seamlessly blend high-level AI capabilities with the constraints of physical systems to improve peoples’ lives.
About the Role
We are seeking a Mechanical Engineer to lead the engineering, characterization, and productionization of flexible and compliant components in robotic platforms.
You will partner closely with cross-functional teams to translate material concepts into engineered subsystems that meet functional, durability, and manufacturing requirements. This role focuses on understanding how soft materials behave in dynamic mechanical systems — including fatigue, creep, hysteresis, wear, and environmental degradation — and designing assemblies that perform consistently at scale.
You will work with materials such as elastomers, foams, thermoplastic polyurethanes (TPUs), engineered fabrics, knitted and woven textiles, cables, and other flexible load-bearing or transmission elements, integrating them with rigid hardware, sensors, and actuators using fabrication methods such as bonding, molding, lamination, and sewn assemblies.
This role is based in San Francisco, CA, and requires in-person presence 4 days a week.
In this role, you will
Design and integrate compliant or flexible materials into mechanical subsystems and rigid hardware interfaces.
Leverage FEA tools to characterize material behavior under operational loads, including tension, compression, abrasion, fatigue, and environmental exposure.
Develop test methods and validation protocols to evaluate durability, performance, and failure modes of soft components.
Collaborate with cross-functional teams to transition early prototypes into manufacturable designs.
Source and evaluate materials in collaboration with supply chain partners and specialty fabricators.
Work with contract manufacturers on fabrication methods such as bonding, lamination, molding, overmolding, cut-and-sew, and composite layups.
Analyze system-level tradeoffs between compliance, durability, manufacturability, and integration constraints.