Journal of Manufacturing and Materials Processing (Jun 2020)

Characterization of Thermomechanical Boundary Conditions of a Martensitic Steel for a FAST Forming Process

  • Xiaochuan Liu,
  • Xiao Yang,
  • Yuhao Sun,
  • Denis J. Politis,
  • Ken-ichiro Mori,
  • Liliang Wang

DOI
https://doi.org/10.3390/jmmp4020057
Journal volume & issue
Vol. 4, no. 2
p. 57

Abstract

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The present work characterized and modelled the interfacial heat transfer coefficient and friction coefficient of a non-alloy martensitic steel, for a novel Fast light Alloy Stamping Technology (FAST) process. These models were validated through temperature evolution, thickness distribution and springback measurements on experimentally formed demonstrator components, which were conducted on a pilot production line and showed close agreement, with less than 10% variation from experimental results. The developed models and finite element simulations presented in this work demonstrate that non-isothermal processes can be precisely simulated with implementation of the accurate thermomechanical boundary conditions.

Keywords