What are the responsibilities and job description for the Materials Scientist or Engineer – Film production position at Inertia?
Overview:
We are seeking a Materials Scientist or Engineer to lead the development of mass production of high-performance thin films for inertial fusion energy (IFE) targets. This role will pioneer techniques for mass production of flat free standing thin films of both high strength (sub-micron thickness), and micron scale high heat-resistant films. Production volume needs to enable large-scale manufacturing of IFE targets at a 10 Hz manufacturing rate.
Primary Responsibilities:
Required:
We offer an excellent benefits program, including Medical, Dental, and Vision plans, company-paid holidays, matching 401k, and more!
About Inertia:
Inertia is taking the most direct, scientifically-proven path to commercializing fusion, leveraging the only successful achievement of fusion ignition, using a process that was pioneered at the U.S. Department of Energy’s (DOE) Lawrence Livermore National Laboratory (LLNL). With groundbreaking innovation, transformative technology, and multi-year investment, Inertia is committed to commercializing fusion energy in the next decade.
We are seeking a Materials Scientist or Engineer to lead the development of mass production of high-performance thin films for inertial fusion energy (IFE) targets. This role will pioneer techniques for mass production of flat free standing thin films of both high strength (sub-micron thickness), and micron scale high heat-resistant films. Production volume needs to enable large-scale manufacturing of IFE targets at a 10 Hz manufacturing rate.
Primary Responsibilities:
- Develop equipment and processes for producing free-standing thin films of high strength and high heat-resistance in form factors suitable for assembly into IFE targets.
- Implement precision metrology appropriate for mass production of thin films.
- Assist with film coatings on substrates including non-planar substrates.
- Investigate other related materials issues needed in the production of targets at mass scale.
Required:
- PhD or MS, or experience equivalent, in Materials Science, Applied Physics, Mechanical Engineering, Manufacturing Engineering, or related field.
- Experience with polymer and polymer composite high performance free standing thin films.
- Strong analytical measurement skills.
- Demonstrated ability to work with mass production machines or processes.
- Experience high temperature materials such as CNT, graphene oxide, carbon fiber.
- Experience with coating thick films on non-planar substrates.
- Familiarity with process scale-up or industrial mass production.
We offer an excellent benefits program, including Medical, Dental, and Vision plans, company-paid holidays, matching 401k, and more!
About Inertia:
Inertia is taking the most direct, scientifically-proven path to commercializing fusion, leveraging the only successful achievement of fusion ignition, using a process that was pioneered at the U.S. Department of Energy’s (DOE) Lawrence Livermore National Laboratory (LLNL). With groundbreaking innovation, transformative technology, and multi-year investment, Inertia is committed to commercializing fusion energy in the next decade.