Lead Engineer – Mechanical Analysis & Simulations (f/m/d)) at GE Aerospace

Bielsko-Biała, Silesian Voivodeship, Poland -

Full Time

Start Date

Immediate

Expiry Date

20 Mar, 26

Salary

0.0

Posted On

21 Dec, 25

Experience

2 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Finite Element Analysis, Structural Mechanics, Strength of Materials, Fatigue Fundamentals, FEM Tools, ANSYS, Patran, Abaqus, HyperWorks, Mesh Creation, Boundary Conditions, Analysis Results Evaluation, Documentation, Collaboration, Technical Reviews, Certification Support

Industry

Aviation and Aerospace Component Manufacturing

Description

Job Description Summary Avio Aero as a part of a GE Aviation Business is the leading company in the aeronautic business sector for the design, manufacturing and maintenance of components and systems for civil and military aero engines. We offer an opportunity of development in our Design Engineering Center team located in Bielsko-Biała plant! Lead Engineer Mechanical Analysis & Simulations will perform design activities within the 3rd Parties Module and Components NPI, Mechanical Transmissions Design organization, with focus on aircrafts’ and helicopters’ gearbox rotating and static structures. In this position you will follow the whole New Product Introduction process from Concept Design to Detailed Definition, Validation/Certification/Testing and Production Support. Job Description Essential Responsibilities Perform finite element analyses (FEM) to support mechanical design development and validation of aircraft engine components, including rotating and static structures Build, modify and maintain structural FEM models for static, modal, fatigue and damage tolerance analyses under defined load cases Apply established analysis methods, standards and best practices to ensure accuracy and consistency of results Interpret analysis results, identify critical stress and deformation areas, and propose technically sound recommendations Prepare clear and well-structured analysis documentation and reports supporting design reviews and certification activities Collaborate with design, materials, manufacturing and testing teams to resolve structural issues Participate in technical reviews as a contributor, presenting FEM results and assumptions Support certification and compliance activities by providing analysis data and explanations to senior engineers Coordinate FEM-related tasks with external partners under guidance of senior analysts or technical leads Ensure proper documentation, traceability and data management of FEM models and results Qualifications/Requirements Bachelor’s or Master’s degree in Mechanical Engineering, Aerospace Engineering, Applied Mechanics or related field Experience in structural FEM analysis in aerospace, turbomachinery or comparable high-reliability industries Good understanding of structural mechanics, strength of materials and fatigue fundamentals Hands-on experience with commercial FEM tools (e.g. ANSYS, Patran, Abaqus, HyperWorks – HyperMesh / HyperView, or equivalent) Ability to independently create meshes, define boundary conditions and evaluate analysis results Good written and verbal communication skills in English Structured, analytical mindset with strong attention to detail We offer Flexible work schedule and hybrid work model Co-financing sport activities Private medical care Discretionary awards Jubilee awards Holiday bonus Christmas bonus Santa Claus vouchers for employees' children Subsidizing summer camps / winter camps / green schools for employees' children Cash rewards under the employee suggestion system Generali group insurance - the basic variant of life insurance and accident insurance fully financed by the employer with the option of insuring family members Active employee groups: Women's Network, Volunteers, Health Ahead, Sustainability Network, Disability Advocacy Network, Ambassadors Additional Information Relocation Assistance Provided: No

Responsibilities

The Lead Engineer will perform finite element analyses to support the mechanical design development of aircraft engine components. This includes building and maintaining FEM models, interpreting results, and collaborating with various teams to resolve structural issues.