Master’s Thesis Student (d/f/m), Additive Manufacturing For Hydrogen Aviation Heat Exchangers

Airbus Operations GmbH

Hamburg, Germany
Additive manufacturing design principles
Cryogenics, thermodynamics, fluid mechanics
Material sciences
You will investigate how Additive Manufacturing can overcome the limitations of traditional heat exchanger technologies to deliver the next generation of lightweight, compact, and highly integrated cryogenic heat exchangers

Job Summary

  • You will investigate how Additive Manufacturing can overcome the limitations of traditional heat exchanger technologies to deliver the next generation of lightweight, compact, and highly integrated cryogenic heat exchangers.
  • Work-life balance with a 35-hour week (flexitime) and an international environment with the opportunity to network globally.
  • Your tasks include researching advanced alloys, designing innovative core geometries using simulation tools, and identifying required investments for aviation-certified Additive Manufacturing production.

Matching Summary

You will investigate how Additive Manufacturing can overcome the limitations of traditional heat exchanger technologies to deliver the next generation of lightweight, compact, and highly integrated cryogenic heat exchangers.

Skills & Requirements

Must-have

  • Additive Manufacturing design principles
  • cryogenics, thermodynamics, fluid mechanics
  • material sciences
  • design innovative core geometries
  • mitigate risks associated with heat exchanger

Nice-to-have

  • disruptive technology
  • sustainable aviation
  • proactive mindset
  • network globally

Key Requirements

  • Master’s degree in Mechanical, Aerospace, Thermal Engineering
  • Fluency in English

Work Rights

Not specified

Tailored Resume

Cover Letter