A more than 10-year Aerospace Stress Engineer is a senior-level position responsible for leading structural analysis, validating finite element models, and ensuring compliance with airworthiness and certification standards. This role requires deep expertise in classical hand calculations, advanced fatigue, and damage tolerance (F&DT) methodologies for both metallic and composite aircraft structures.
Structural Analysis: Perform advanced static, Joint analysis, dynamic, fatigue, and damage tolerance analyses on primary and secondary aerospace structures.
Methodology & Tools: stress evaluations utilizing Finite Element Analysis (FEA) software (e.g., Hypermest, Abaqus, NASTRAN/PATRAN) and validate models with classical hand calculations.
Certification Compliance: Author, review, and approve structural stress reports ensuring designs meet strict regulatory standards set by aviation authorities (e.g., FAA, EASA).
Project Leadership: Act as a subject matter expert (SME), guiding and mentoring junior stress engineers and multidisciplinary design teams.
Manufacturing Support: Review engineering drawings, support Material Review Board (MRB) dispositions, and provide solutions to manufacturing or in-service structural discrepancies.
Material Selection and Testing: Material Selection, Develop testing plans and analyse physical test data to validate structural integrity and confirm theoretical predictions
Education: Bachelor’s or Master’s degree in Aerospace, Mechanical, or Structural Engineering.
Experience: 10+ years of progressive experience in aerospace or defence structural analysis.
Technical Proficiencies:
- Expertise in composite and metallic material behaviour.
- Proficiency in CAD/PLM systems like CATIA V5 or Enovia.
- Deep familiarity with industry-specific toolkits (e.g., Hypermesh, Ls-Dyna).
Soft Skills: Exceptional technical writing capabilities, strong project management skills, and the ability to articulate complex structural concepts to stakeholders