Metals (Nov 2018)

Prediction and Experiment of Fracture Behavior in Hot Press Forming of a TA32 Titanium Alloy Rolled Sheet

  • Ronglei Fan,
  • Minghe Chen,
  • Yong Wu,
  • Lansheng Xie

DOI
https://doi.org/10.3390/met8120985
Journal volume & issue
Vol. 8, no. 12
p. 985

Abstract

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In aerospace and automotive industries, hot press forming (HPF) technology is widely used for rapid and precise deformation of the complex sheet metal component, where the fracture behavior has always been a focused problem. In this study, the hot tensile test and the Nakazima test were carried out, in order to establish the Misiolek constitutive equation and determine the forming limit strain points at an elevated temperature, respectively. The microstructure evolution during the tensile test was also investigated by optical microscope. In addition, the Marciniak⁻Kuczynski (M⁻K) model, considering the Mises, Hill48, and Logan⁻Hosford yield criteria, was utilized to calculate the theoretical forming limit curve (FLC). Furthermore, the fracture behavior of the TA32 alloy sheet during the HPF process was accurately predicted by inserting the predicted FLC into finite element simulation, and the qualified complex component was obtained by optimizing the shape of the sheet.

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