Systems and methods to predict fatigue lives of aluminum alloys under multiaxial loading

Assignee

• GM GLOBAL TECHNOLOGY OPERATIONS LLC · US

Inventors

• Qigui Wang · Rochester Hills, US
• Yucong Wang · Saginaw, US
• Guoqiu He · Shanghai, CN
• Chengshu Chen · Hangzhou City, CN
• Zhengfei Hu · Wuxi, CN
• Xiaoshan Liu · Shanghai, CN
• Defeng Mo · Shanghai, CN

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06F2111/08
• WIPO fieldComputer technology
• WIPO sectorElectrical engineering

Abstract

A system to predict a fatigue life of an aluminum alloy is disclosed herein. The system comprises a computer-readable medium cooperative with micromechanics-based fatigue life models for cyclic multiaxial loading. The fatigue life models predict the fatigue life by processing information received by the system relating to the aluminum alloy and the stress state present in the aluminum alloy. The received information comprises at least one of: a critical shear plane, a damage factor, a hardening factor defined by at least one of a plurality of uniaxial cyclic hardening factor parameters related to probabilistics of defects and microstructure characteristics in the aluminum alloy, an additional hardening factor related to non-proportionality, and thermophysical and mechanical properties of the aluminum alloy. The defects and microstructure characteristics can be calculated using mathematical modeling of casting, solidification and heat treatment processes or by an extreme value statistics based on metallography measurements.