We are looking for an enthusiastic Junior Turbomachinery Design Engineer to support the design and development of high-speed rotating components such as rotors, shafts, blades, and disks. The role focuses on assisting in the conceptualization, modeling, and validation of turbomachinery parts to meet performance, reliability, and safety requirements.
Assist in the design, modeling, and analysis of high-speed rotating components used in turbomachinery.
Support the development of 3D CAD models and technical drawings using software such as CATIA, SolidWorks, or NX.
Collaborate with senior engineers to conduct preliminary stress, thermal, and vibration assessments.
Participate in FEA and CFD studies by preparing input data and reviewing analysis results.
Help define material specifications and manufacturing processes for rotating parts.
Support design reviews and documentation efforts ensuring compliance with industry standards.
Contribute to troubleshooting and failure investigations by collecting and analyzing field or test data.
Stay updated on industry trends, materials, and best practices related to turbomachinery design.
High-Speed Rotating Components: Design considerations for rotors, disks, blades, and shafts under centrifugal and thermal loads.
Mechanical Design Fundamentals: Application of stress analysis, vibration analysis, and material selection principles.
CAD Modeling & Drafting: Development of accurate 3D models and detailed drawings for manufacturing.
Basic FEA Support: Assisting in finite element model setup, load case definition, and result interpretation.
Material & Manufacturing Awareness: Understanding of material properties, machining, and assembly processes relevant to turbomachinery.
Quality & Compliance: Adherence to design codes, safety standards, and quality assurance protocols.
Bachelor’s degree in Mechanical Engineering, Aerospace Engineering, or related discipline.
Familiarity with CAD software (CATIA, SolidWorks, NX, or similar).
Basic understanding of turbomachinery components and mechanical design concepts.
Exposure to FEA and CFD tools is a plus.
Strong analytical skills with attention to detail.
Good communication and teamwork abilities.
Eagerness to learn and develop technical expertise in turbomachinery design.