Technologist, Level I-II

Job Title Technologist, Level I-II Agency Texas A&M University System Offices Department Bush Combat Development Complex Proposed Minimum Salary Commensurate Job Location Bryan, Texas Job Type Staff Job Description The System Offices is one of several system members within the Texas A&M University System representing one of the largest systems of higher education in the nation, with a network of 12 universities, a comprehensive health science center, nine state agencies, and the RELLIS Campus. The Texas A&M University System mission is to provide education, conduct research, commercialize technology, offer training, and deliver services for the people of Texas and beyond. The System Offices, within the Texas A&M University System, provides an outstanding benefits package including, but not limited to: competitive health benefits; paid vacation, sick leave, and holidays; a defined benefit retirement plan to include an employer contribution through Teachers Retirement System of Texas (TRS); if applicable, a defined contribution retirement plan to include an employer contribution through an approved ORP vendor: additional voluntary tax deferred annuity (TDA) options; tuition assistance; and wellness programs to promote work/life balance. Salary Commensurate with experience. Job Description Summary The Materials Technologist I position at the George H.W. Bush Combat Development Complex (BCDC) requires an individual with experience in scientific research or engineering principles, specifically within the field of materials science. The incumbent will be responsible for the operation and maintenance of complex furnace and manufacturing systems and will apply advanced, hands-on testing methodologies to evaluate the thermal, mechanical, and oxidative properties of new materials. Key responsibilities include conducting comprehensive materials characterization using techniques such as Scanning Electron Microscopy (SEM), Energy Dispersive Spectroscopy (EDS), X-Ray Diffraction (XRD), thermal analysis, and mechanical testing to determine material performance limits. This role is particularly suited for candidates with substantial hands-on experience in both manufacturing and experimental testing of advanced materials. The Technologist will be expected to investigate and implement innovative manufacturing approaches aimed at enhancing the thermal and mechanical properties, structural efficiency, and high-temperature durability of materials. Collaboration with interdisciplinary teams is essential to successfully integrate material solutions into real-world defense applications. The Advanced Integrated Materials (AIM) research team at BCDC is dedicated to addressing critical challenges identified by the DoW in the manufacturing, design, and evaluation of high-performance materials. The primary objectives of this job include the development and evaluation, as well as the advancement of manufacturing concepts for materials from metal alloys to ceramics to carbon-carbon composites. Ideal candidates will demonstrate a strong, hands-on approach to research and problem-solving, with the proven ability to translate experimental findings into practical advancements in material performance. Applicants with experience in both the manufacturing and testing of advanced materials are strongly encouraged to apply. Responsibilities Provides hands on experience in the identification, analysis, and resolution of problems. Utilizes established engineering principles in the design and evaluation of engineering components. Ensures accomplishment of business goals and objectives through effective planning, organizing, estimating, scheduling and monitoring of work activities. Create and interpret technical drawings and schematics. Performs technical research and gathers data needed by engineers to solve technical problems and recommend actions. Prepares thorough and accurate technical reports, correspondence, documentation, calculations and sketches. Implement heat treatment/sintering protocols to enhance the microstructural stability, mechanical properties, and thermal resistance of materials. Evaluate the effects of thermal processing on phase transformations, grain structure, and oxidation resistance. Develop and conduct experiments to assess the mechanical, thermal, and oxidative performance of materials. Utilize advanced testing techniques such as tensile, fatigue, creep, and thermal cycling to evaluate material behavior. Utilize SEM, XRD, EDS, DSC, TGA, and other analytical techniques to investigate material properties. Analyze and interpret test resu