Mechanical Engineer

About The Position

Requirements

• BS or MS in Mechanical Engineering, or equivalent work experience.
• Experience in an immersive system design project or research study/ thesis, in collegiate project teams (e.g.: SAE, FSAE, BAJA, others), other extracurricular participation, or professional settings.
• A minimum of 2+ years of experience in a technical engineering, design, or product role in a professional setting.
• Proven 3D CAD skills (any platform, but SOLIDWORKS preferred), as well as CAE/ FEA experience, and the ability to produce high-quality engineering 2D drawings that comply with common industry standards (e.g.: GD&T, ASME standards etc.)
• Strong understanding of engineering fundamentals in structures, materials, fluids and aero, thermal, controls, mechanics/ dynamics, system modeling, and fundamentals of physics.
• Manufacturing knowledge & experience with machine shops (sheet metal, CNC, lathe, sand casting, forging, die-casting etc.).
• Rapid prototyping background (structures/electronics/software) & 3D printing knowledge.
• Proficient in hands-on prototyping (machining, shop tools, welding, soldering), and demonstrated hands-on fabrication skills.
• Familiarity with MIL-STD, DO-160, or other automotive, defense, and aerospace standards.
• This position is an onsite role based in Chariot Defense’s San Bruno, CA, office.
• Willingness to support 10% travel, domestically and internationally, as well as work extended and weekend hours, when necessary
• Able to work on your feet for extended periods in a shop setting.
• Able to lift and carry 50lbs.
• All employees are required to provide proof of authorization to work in the U.S. within their first 3 days of work.

Nice To Haves

• Experience designing and working directly with low and high voltage systems, high current/ high voltage power distribution, high voltage safety, and thermal management of lithium-ion batteries (or other energy storage) and voltage regulating power electronics.
• Experience in industries/ applications requiring high-reliability embedded power electronics operated in austere environments, and testing exposure for lifecycle, abuse, and endurance tests.
• MATLAB/ SIMULINK/ SIMSCAPE experience, as well as experience with any or several CAE/ FEA tools such as ANSYS, Fluent, Star CCM+, Abaqus, Comsol Multiphysics, Hyperworks etc.
• Experience with any or several instrumentation, scripting, communication and measurement tools such as LabVIEW, DIAdem, DAQs, PEAK (PCAN), Vector (CANape, CANoe etc.), Python.
• Experience with any or several data, content, and product lifecycle management systems like Confluence, JIRA, Polarion, Tableau, Teamcenter etc.
• Experience with any or several common sensors and sensing methods (such as thermocouples, force/ load sensors, flow sensors, voltage probes, current clamps etc.), sensor integration, and sensor data post processing/ filtering.
• Advanced designing skills for CNC machining, composites/ CFRPs, sheet metal, injection molding, PCBA integration.

Responsibilities

• Design Ownership: Own hardware design from initial requirements to concept and prototyping to series production, and beyond, in service and field deployment, as an end-to-end owner of subsystems.
• Integrated Systems: Develop mechanical designs that involve the complex and multivariable mechanical integration of next-gen energy storage, advanced material types, complex thermal solutions, power electronic hardware, dense PCBAs, and efficient harnessing for the tightest packaged, most efficient, and highest performing end-product.
• Rapid Iteration: Prototype rapidly to find issues fast, debug, iterate, and develop a final, field-deployable product on compressed timelines, closely managing risk vs. reward, effort vs. return, and balancing schedules and budget with capability and performance.
• Design for Mass Manufacturing: Design mechanical, thermal, electro-mechanical components and assemblies, and integrated power systems, for volume manufacturing from the get-go.
• Direct Customer Engagement: Support critical customer-facing hardware demonstrations, from time to time, and use these interactions to better understand the customers’ requirements and application needs.

Benefits

• early-stage equity
• access to company-sponsored benefit plans