Experimental results and constitutive modelling for tungsten and tantalum at high strain rates and very high temperatures

TL;DR

This paper analyzes high strain rate and high temperature experimental data for tungsten and tantalum, developing constitutive models and comparing results across temperature ranges to understand their behavior under extreme conditions.

Contribution

It provides new high temperature, high strain rate experimental data for tungsten and tantalum and develops constitutive parameters based on the Zerilli-Armstrong model.

Findings

Yield stress measured up to 2520 K and 2720 K for tantalum and tungsten.

Constitutive parameters determined and compared with lower temperature data.

High strain rate behavior characterized at temperatures above 2000 K.

Abstract

Recently reported results of the high strain rates, high temperature measurements of the yield stress of tungsten and tantalum have been analyzed. The highest temperature reached in the experiment, based on heating and stressing a thin wire by a fast, high current pulse, was 2520 K and 2720 K, for tantalum and tungsten, respectively. The strain-rates in both the tungsten and tantalum tests were in the range from 500 to 1500 1/s. The parameters for the constitutive equation developed by Zerilli and Armstrong have been determined from the experimental data and the results have been compared with the data obtained at lower temperatures.