 
        
        Reports To
Lead Stress Engineer / Head of Engineering
Summary
We are seeking a highly motivated and skilled Composites Stress Engineer to join our dynamic engineering team. The ideal candidate will have a strong understanding of composite materials and structures, proven experience in finite element analysis (FEA), and a hands‑on approach to product development. A desire to contribute to the full product lifecycle, from concept to manufacture, is essential.
Responsibilities
 * Perform stress analysis of composite structures using industry‑standard FEA software (e.g., Altair HyperWorks, Abaqus).
 * Develop and validate structural models to predict the behavior of composite components and assemblies under various loading conditions.
 * Contribute to the design and optimization of composite structures, ensuring they meet performance, weight, and cost targets.
 * Conduct material characterization tests and analyze data to determine material properties for use in FEA models.
 * Collaborate with design engineers to ensure designs are structurally sound and manufacturable.
 * Generate detailed stress analysis reports and present findings to the engineering team and stakeholders.
 * Stay abreast of the latest advancements in composites technology and analysis techniques.
 * Hands‑on Development:
 * Actively participate in the fabrication and testing of composite prototypes.
 * Assist in developing and refining manufacturing processes for composite components.
 * Contribute to the development of new composite material solutions and applications.
Qualifications
 * Bachelor’s degree in Mechanical Engineering, Aerospace Engineering, or a related field.
 * Proven experience in the stress analysis of composite structures.
 * Strong understanding of composite material behavior and failure mechanisms.
 * Proficiency in FEA software (e.g., Altair HyperWorks, Abaqus). Experience with Altair HyperWorks is highly desirable.
 * Excellent analytical and problem‑solving skills.
 * Ability to work independently and as part of a team.
 * Strong communication and interpersonal skills.
 * Adaptability and willingness to learn new skills.
 * Experience with CAD software (e.g., CATIA, SolidWorks).
 * Knowledge of composite manufacturing processes.
 * Familiarity with industry standards and regulations related to composite structures.
Key Performance Indicators (KPIs)
 * On‑time project delivery: Meeting deadlines for stress analysis tasks within agreed‑upon timeframes. (Measured by % of projects delivered on time)
 * Accuracy of analysis: Demonstrated through validation testing and correlation with real‑world performance. (Measured by correlation accuracy between FEA predictions and physical test results)
 * Design optimization: Contribution to weight reduction and performance improvement in composite designs. (Measured by % weight reduction achieved or performance increase in projects)
 * Innovation: Contribution to the development of new composite solutions or analysis methodologies. (Measured by number of new ideas implemented or patents filed)
 * Collaboration: Effective teamwork and communication with other engineers and departments. (Measured by peer reviews and feedback from team members)
 * Continuous learning: Staying current with the latest advancements in composites and analysis techniques. (Measured by participation in relevant training courses and conferences)
 * Competitive salary and benefits package.
 * Opportunities for professional development and career growth.
 * Challenging and rewarding work environment.
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