DOI码：10.1016/j.jmrt.2024.05.237
所属单位：材料科学与工程学院
发表刊物：Journal of Materials Research and Technology
关键字：Tungsten fiber-reinforced tungsten matrix, composites, Field assisted sintering, Interfacial microstructure, Y2O3 coating, Finite element analysis
摘要：For tungsten fiber-reinforced tungsten matrix (Wf/W) composites, the interfacial microstructure is essential for the improvement of mechanical properties. The Y2O3 coating deposited on the W fiber has been applied to modify the interface between the W matrix and W fiber. However, the Y2O3 coating on the W fiber is usually fractured and dispersed into the W matrix as large particles after sintering. In this study, the microstructure of the Y2O3 coating on the W fiber in Wf/W composites was studied. And the failure mechanism of Y2O3 interface during field assisted sintering was investigated through finite element analysis (FEA). The reasons for the fracture of the Y2O3 interface can be attributed to the transformation of the Y2O3 coating from cubic to face centered cubic (FCC) crystal structure, the large lattice misfit of 49.0% at the interface, the large difference of the elastic modulus and thermal expansion coefficient between W and FCC-Y2O3. In order to avoid the fracture of Y2O3 interface during sintering, the finite element analysis was used to modify the processing parameters of Wf/W composites, including the sintering temperature, pressure, particle size of W powder and thickness of the Y2O3 coating. And the simulation results were consistent with the experimental results.
合写作者：Y. Chen, X. Han, K.L. Li, Y.F. Zhang, Y.R. Mao, J.W. Coenen, J. Wang, L.M. Luo
第一作者：Chang Chen
论文类型：期刊论文
通讯作者：Chang Chen, Shan Wang, Jing Wang
学科门类：工科
期号：30
页面范围：8661–8670
ISSN号：2214-0697
是否译文：否