Mechanical Engineer Thermal - Structural Analysis

About The Position

Requirements

• Level 3: Bachelor of Science degree in mechanical engineering or a directly related field from a program accredited by ABET and 5 years of relevant experience; or an Advanced degree in mechanical engineering or a directly related field from a program accredited by ABET and 2 years of relevant experience.
• Level 4: Bachelor of Science degree in mechanical engineering or a directly related field from a program accredited by ABET and 9 years of relevant experience; or a Masters degree in mechanical engineering or a directly related field from a program accredited by ABET and 6 years of relevant experience; or a PhD in mechanical engineering or a directly related field from a program accredited by ABET and 4 years of relevant experience.
• Strong technical skills in mechanical engineering, including design, modeling, and problem-solving.
• Demonstrated experience performing finite element analysis (FEA) for structural and thermal engineering applications.
• Experience developing engineering tools and automation using Python, MATLAB, or similar scientific computing software.
• Effective communication and the ability to mentor junior staff are also essential.
• Familiarity with applicable codes, standards, and safety requirements is crucial.
• Ability to obtain and maintain a DOE "Q" security clearance, which requires U.S. citizenship.

Nice To Haves

• Advanced degree in mechanical engineering or a directly related field from a program accredited by ABET.
• Experience performing high-temperature structural analysis.
• Experience evaluating creep, fatigue, creep-fatigue interaction, and life assessment of engineering components.
• Experience with fracture mechanics methodologies, crack growth evaluation, and structural integrity assessments.
• Experience performing nonlinear analyses involving large deformation, contact, material nonlinearity, and transient loading conditions.
• Experience with explicit dynamic analysis for impact, shock, drop, blast, or other high-strain-rate events.
• Experience performing coupled thermal-structural and Multiphysics simulations.
• Experience supporting the design, analysis, and qualification of nuclear systems and components.
• Knowledge and application of ASME Boiler and Pressure Vessel Code requirements, including ASME Section III, Division 5.

Responsibilities

• Perform thermal, structural, and coupled thermal-structural finite element analyses (FEA) to support the design, evaluation, and qualification of reactor systems, experimental hardware, and mechanical components.
• Develop/use analytical and computational models to predict component behavior under operational, transient, and accident loading conditions.
• Evaluate stress, strain, deformation, temperature distributions, fatigue life, creep damage, and structural integrity of engineering systems and components.
• Conduct linear and nonlinear analyses, including contact, material nonlinearity, geometric nonlinearity, and time-dependent material behavior as required.
• Develop, verify, validate, and document simulation methodologies, models, assumptions, and results in accordance with project and quality requirements.
• Interpret analysis results and provide engineering recommendations to support design decisions, risk reduction, and performance improvements.
• Support design reviews and ensure engineering designs comply with applicable codes, standards, and project requirements.
• Perform engineering assessments in accordance with applicable industry standards, including ASME Boiler and Pressure Vessel Code requirements where applicable.
• Collaborate with design engineers, materials engineers, test engineers, and project teams to define requirements and resolve technical challenges.
• Develop analysis plans, technical reports, calculations, and supporting documentation for internal and external stakeholders.
• Assist with the development of engineering tools, workflows, and best practices for modeling and simulation activities.
• Support proposal development and project planning by providing technical input, analysis approaches, and scope estimates.
• Mentor junior engineers in analysis methods, modeling techniques, and engineering best practices.
• Present technical work to project teams, management, sponsors, and external review panels.

Benefits

• Medical, Dental, Vision, and Flexible Spending Accounts
• 401(k) with a 4.2% employer contribution and up to 4.8% match (regular positions) or self-contribute access (postdoctoral positions)
• Paid time off (personal leave)
• Employee Education Program (tuition assistance for eligible positions)
• Comprehensive Relocation Package