Abstract
The evaluation of surface heat transfer coefficients by using experiment measurement method is an inverse heat conduction problem. According to the characteristics of quenching process, a high-speed data acquisition system for measuring the temperature variations in a quenched part was set up by using industry standard architecture (ISA) in this paper. Cooling curves of P20 steel quenched in 20 °C and 60 °C water were acquired by using this system. A new method, which combines the finite element method (FEM) with optimization methods, was presented. The method can be used to evaluate the temperature-dependent surface heat transfer coefficient between the quenched part and quenchant in quenching process according to the temperature curve gained by experiment. In every time interval, the phase-transformation volume and the phase-transformation latent heat of every element are calculated by using FEM. The temperature and the phase-transformation volume of every element are calculated with the coupling calculation of phase-transformation latent heat.
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