Material selection and performance analysis of rotating parts of hydrogen-electric conversion device
Aiming at the design requirements of the core rotating components of the hydrogen-to-electricity conversion device for the high-speed rotating magneto-hydrogen power generation of hydrogen fuel,based on the modeling of SolidWorks rotating parts,the maximum strain,equivalent stress and allowable safety factor of static strength of 6061 aluminum alloy,304 stainless steel,AZ3B magnesium alloy and TC4 titanium alloy under normal working conditions was solved and compared by Workbench Static Structural.At the same time,in order to prevent the resonance phenomenon from damaging the entire device,analyzed the modal of four materials by Workbench Modal.The results show that 6061 aluminum alloy can better meet the performance requirements of hydrogen fuel high-speed rotating magnetic fluid power generation device.The material and performance of rotating parts are important factors affecting the structural optimization design and power generation efficiency of hydrogen fuel high-speed rotating magnetic fluid power generation device.
NETL
NSTL
万方数据
维普
