Material Scientist-Industrial Energy & Technology
| Company | Baker Hughes |
|---|---|
| Location | Twinsburg, OH, USA |
| Salary | $Not Provided – $Not Provided |
| Type | Full-Time |
| Degrees | Master’s |
| Experience Level | Senior |
Requirements
- Have a master’s degree in Materials Science, or Chemistry
- Have at least 5 to 7 years of technical work experience as a Material Scientist/Engineer
- Have a knowledge of High Temperature material selection, and characterization
- Have extensive experience with material testing and analysis techniques
- Nuclear rector testing and/or radiation damage testing experience
- Have experience with welding, brazing (especially ceramic-to-metal), and/or soldering
- Have experience with computational modelling tools such as ANSYS, Granta
- Have expert knowledge of materials standards (ASTM, ASME Code Sec II and IX, ANSI)
- Strong analytical and experimental skillset
Responsibilities
- Working as an integral member of a multidisciplinary team focused on sensor technology, in particular radiation detectors operating at high temperatures (greater than 500C)
- Providing guidance and review of material selection for radiation detection and combustion measurement sensors operating at high temperatures
- Applying knowledge and skills to advise on issues of metallurgy, ceramics, and electroplating
- Providing guidance and review of joining processes such as welding, brazing, and soldering of materials
- Developing, set-up, and safely conduct experiments/tests to support material selection and process development for conceptual & prototype sensor systems
- Establishing robust materials analysis and qualification processes that leverage in-house as well as outside capabilities
- Document work products in written form, e.g. technical notes, design specifications, journal publications
- Presenting work achievements to the team, and when appropriate to the scientific community at technical conferences
- Providing materials support for all existing Reuter-Stokes’ product lines
- Interface with materials peers within the broader Baker Hughes community to leverage and establish best practices
Preferred Qualifications
- The ideal candidate will possess a comprehensive background in high-temperature materials, including metals, ceramics, composites, and/or coatings
- A strong understanding of phase stability, microstructure-property relationships, and microstructural characterization is required
- The candidate should be proficient in using modeling and experimental tools to address complex material science challenges
- The successful candidate is expected to actively contribute to cross-functional teams and demonstrate technical leadership in their core area
- The ideal candidate will have extensive laboratory experience; Scanning electron microscope (SEM) modalities include backscattered electron (BSE) imaging, secondary electron (SE) imaging, electron backscattered diffraction (EBSD), and energy dispersive X-ray spectroscopy (EDS)