Stress Engineer
About the role
Overview
Key Responsibilities:
- Perform detailed and global finite element analysis (DFEM and GFEM) to support structural design, modifications, and certification.
- Execute and validate classical hand calculations for static strength, fatigue, and damage tolerance analysis.
- Analyze structural components including fuselage, wings, empennage, nacelles, landing gear attachment areas, and interiors.
- Collaborate with Design, Loads, Materials, and Liaison Engineering to ensure structural integrity and manufacturability of designs.
- Prepare and review engineering documentation, including stress reports, substantiation packages, and compliance matrices.
- Support certification efforts with regulatory agencies (TCCA, FAA, EASA), including coordination with Design Approval Representatives (DARs).
- Assist in the development and maintenance of analysis tools, templates, and best practices for stress calculations.
- Provide mentorship and technical leadership to junior engineers and analysts.
Qualifications:
- Bachelor’s or Master’s degree in Aerospace, Mechanical Engineering, or a related field.
- 10+ years of progressive experience in aircraft structural stress analysis.
- Expertise in FEM tools such as NASTRAN, Patran, HyperMesh, FEMAP, or ANSYS.
- Strong experience with DFEM and GFEM modelling, mesh refinement, boundary conditions, and results interpretation.
- Proficient in hand calculations using classical methods (Bruhn, Niu, Roark, etc.).
- Comfortable using spreadsheets, scripting tools (e.g., Python, MATLAB), and custom calculation tools.
- Solid understanding of certification requirements, including fatigue and damage tolerance criteria per FAR/CS Part 25.
- Experience preparing substantiation reports and interacting with certification authorities or DERs.
- Excellent communication, documentation, and problem-solving skills.
Preferred Qualifications:
- Familiarity with legacy aircraft structure and modification/repair analysis.
- Experience in weight optimization, composite structure analysis, or crashworthiness is an asset.
- Knowledge of PLM systems (e.g. ENOVIA, SmarTeam) and configuration control processes.
Job Type: Full-time
Pay: $91,295.16-$128,430.38 per year
Schedule:
- 8 hour shift
Work Location: On the road
About Vaspire Technologies
Vaspire Technologies Inc. strategically focuses in helping clients increase their business potential, backed by IT business specialists and entrepreneurs. We provide IT & IT Enabled services to optimize the wants of purchasers.
Vaspire Technologies Inc. established in the state of New Jersey, USA & is reaching to expand operations to potential locations across globe. Vaspire Technologies Inc. makes a specialty of work force Consulting to surpass the expectations of purchasers. Vaspire Technologies Inc. is incorporated within the state of Latest New Jersey & is reaching to expand operations to North American country & Asia Pacific, New Jersey.
Vaspire Technologies Inc. makes a speciality of work force Consulting to surpass the expectations of purchasers.
Stress Engineer
About the role
Overview
Key Responsibilities:
- Perform detailed and global finite element analysis (DFEM and GFEM) to support structural design, modifications, and certification.
- Execute and validate classical hand calculations for static strength, fatigue, and damage tolerance analysis.
- Analyze structural components including fuselage, wings, empennage, nacelles, landing gear attachment areas, and interiors.
- Collaborate with Design, Loads, Materials, and Liaison Engineering to ensure structural integrity and manufacturability of designs.
- Prepare and review engineering documentation, including stress reports, substantiation packages, and compliance matrices.
- Support certification efforts with regulatory agencies (TCCA, FAA, EASA), including coordination with Design Approval Representatives (DARs).
- Assist in the development and maintenance of analysis tools, templates, and best practices for stress calculations.
- Provide mentorship and technical leadership to junior engineers and analysts.
Qualifications:
- Bachelor’s or Master’s degree in Aerospace, Mechanical Engineering, or a related field.
- 10+ years of progressive experience in aircraft structural stress analysis.
- Expertise in FEM tools such as NASTRAN, Patran, HyperMesh, FEMAP, or ANSYS.
- Strong experience with DFEM and GFEM modelling, mesh refinement, boundary conditions, and results interpretation.
- Proficient in hand calculations using classical methods (Bruhn, Niu, Roark, etc.).
- Comfortable using spreadsheets, scripting tools (e.g., Python, MATLAB), and custom calculation tools.
- Solid understanding of certification requirements, including fatigue and damage tolerance criteria per FAR/CS Part 25.
- Experience preparing substantiation reports and interacting with certification authorities or DERs.
- Excellent communication, documentation, and problem-solving skills.
Preferred Qualifications:
- Familiarity with legacy aircraft structure and modification/repair analysis.
- Experience in weight optimization, composite structure analysis, or crashworthiness is an asset.
- Knowledge of PLM systems (e.g. ENOVIA, SmarTeam) and configuration control processes.
Job Type: Full-time
Pay: $91,295.16-$128,430.38 per year
Schedule:
- 8 hour shift
Work Location: On the road
About Vaspire Technologies
Vaspire Technologies Inc. strategically focuses in helping clients increase their business potential, backed by IT business specialists and entrepreneurs. We provide IT & IT Enabled services to optimize the wants of purchasers.
Vaspire Technologies Inc. established in the state of New Jersey, USA & is reaching to expand operations to potential locations across globe. Vaspire Technologies Inc. makes a specialty of work force Consulting to surpass the expectations of purchasers. Vaspire Technologies Inc. is incorporated within the state of Latest New Jersey & is reaching to expand operations to North American country & Asia Pacific, New Jersey.
Vaspire Technologies Inc. makes a speciality of work force Consulting to surpass the expectations of purchasers.