You will develop a next-generation high-performance elastocaloric cooling device using microfluidics-based shape memory alloys. Our goal is to upscale the cooling capacity of the device, transitioning from microwatts (mW) to several hundred watts (100 W), while simultaneously enhancing temperature lift to unlock new avenues for sustainable cooling application. The project holds particular relevance for various applications, encompassing battery thermal management in electric vehicles, the cooling of critical electronic components, as well as ensuring the safe transport of perishable goods.
Institute of Microstructure Technology (IMT)
You have the following tasks:Design and fabricate microchannels within superelastic SMA materialsCharacterization of superelastic shape memory alloys (mechanical, thermal, fatigue life)Modelling, design and simulation (FEM multiphysics, lumped element modelling)Rapid prototyping (optical lithography, 3D printing, laser technology)Development, characterization and control of cooling demonstrator variants Simulation-based design optimizationThe activity offers the opportunity for a part-time doctorate.The institute is equipped with an expansive array of state-of-the-art facilities, including a 600 m² clean room, advanced rapid prototyping capabilities like lithography, 3D printing and laser cutting, construction and connection technology labs, as well as various metrology laboratories. This position is funded by the Hector Fellow Academy (HFA). As a recipient of this funding, you will have the opportunity to engage in various activities within the HFA, including participation in the yearly symposium, in the networking and training events, and in an annual management module of the Hector School. For more information, please see: https://hector-fellow-academy.de/en/young-scientist-support/.
Contract duration
3 years
Application up to
30.04.2025
Contact person in line-management
For further information please contact Dr. Jingyuan Xu, email: jingyuan.xu@kit.edu
