Simulation of fracture of heat-resistant alloys under creep and neutron irradiation conditions
Author:
Publisher
Elsevier BV
Subject
General Engineering,Energy Engineering and Power Technology
Reference35 articles.
1. The Role of the Constitutive Model in Creep Crack Growth Modelling;Abubakker;Engineering Fracture Mechanics,2015
2. Experimental–theoretical study of high-cycle failure of structural elements of VZh-159 alloy;Antipov;Journal of Machinery Manufacture and Reliability,2016
3. The Problem of Strain Aging and Long-Term Fracture in Material Mechanics;Arutyunyan,2004
4. High-Temperature Embrittlement and Long-Term Strength of Metallic Materials;Arutyunyan;Mechanics of Solids,2015
5. The Problem of High-Temperature Creep and Long-Term Strength in the Mechanics of Materials;Arutyunyan;Doklady Physics,2017
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