Investigate how Additive Manufacturing can overcome limitations of traditional heat exchanger technologies for lightweight, compact, and highly integrated cryogenic heat exchangers
Job Summary
Investigate how Additive Manufacturing can overcome limitations of traditional heat exchanger technologies for lightweight, compact, and highly integrated cryogenic heat exchangers.
Contribute to the feasibility study of Additive Manufacturing-based heat exchangers, including research on advanced alloys and design optimization using simulation tools.
Benefit from a 35-hour week with flexitime, an international environment, and opportunities to participate in the Generation Airbus Community.
Matching Summary
Investigate how Additive Manufacturing can overcome limitations of traditional heat exchanger technologies for lightweight, compact, and highly integrated cryogenic heat exchangers.
Skills & Requirements
Must-have
Additive Manufacturing design principles
cryogenic hydrogen applications
heat transfer optimization
thermal management systems
advanced alloys research
Nice-to-have
disruptive technology mindset
sustainable aviation focus
global networking opportunities
cosmopolitan culture experience
Key Requirements
Master’s degree in Mechanical, Aerospace, Thermal Engineering or related field
Theoretical background in cryogenics, thermodynamics, fluid mechanics, material sciences