Constitutive modelling of artificial neural network for hydrogenated Ti65 alloy based on genetic algorithm optimization

DOI:	10.11809/bqzbgcxb2024.08.031
Keywords:	hydrogenation; Ti65 alloy; artificial neural network; genetic algorithm; constitutive model
Abstract:	The study conducted isothermal compression tests of Ti65 alloy samples at different hydrogen contents (unhydrogenated, 0.13 wt.%, 0.25 wt.%, 0.34 wt.%, and 0.43 wt.% hydrogen) in the α+β two phase and β single phase regions at a strain rate range of 0.001 s-1 to investigate the high temperature deformation behavior of hydrogenated Ti65 alloys and construct a GA BP constitutive model for Ti65 alloys that considers hydrogen content, deformation temperature, strain, and strain rate. The model was integrated into the finite element software to simulate the isothermal compression process of hydrogenated Ti65 alloy samples. The results showed that the correlation coefficient and the average relative absolute errors value of the 4 12 12 1 structure GA BP constitutive model were 0.998 2 and 046%, respectively, with high prediction accuracy and generalization ability. The simulation results of isothermal compression indicated that the established GA BP constitutive model had high simulation accuracy and could be used for analyzing the thermoplastic forming process for locally hydrogenated Ti65 alloy.
Issue:	Vol. 45 No. 8 (2024)
Published:	2024-09-02
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