Specifications
DOI: 10.3969/j.issn.1000-436x.2012.z2.019
Database: Compendex
Compilation and indexing terms, © 2013 Elsevier Inc.
13.
Accession number: 20130615999688
Title: Numerical analysis of the infiltration process of WCu pseudo-alloy
Authors: Xiao, Peng1 ; Wang, Ni1 ; Yang, Xiaohong1/肖鹏;王妮;杨晓红
Author affiliation:
1 Xi'an University of Technology, Xi'an 710048, China
Corresponding author: Xiao, P. (xiaopeng01@xaut.edu.cn)
Source title: Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
Abbreviated source title: Xiyou Jinshu Cailiao Yu Gongcheng
Volume: 41
Issue: 12
Issue date: December 2012
Publication year: 2012
Pages: 2139-2143
Language: Chinese
ISSN: 1002185X
CODEN: XJCGEA
Document type: Journal article (JA)
Publisher: Rare Metals Materials and Engineering Press, P.O. Box 51, Xi'an, 721014,
China
Abstract: The process of melt infiltration of WCu alloy was simulated by the finite element
software. A spherical particle skeleton model was established according to the distributing
morphology of W particles. The pressure and the velocity vector distribution of copper liquid in
the flow path were analyzed in isodiametric and non-isodiametric porous system. The
relationship between the depth and time of infiltration in the porous system is obtained when
the average particle size of W powder is 5 μm, which is in good agreement with experimental
values. © 2012, Northwest Institute for Nonferrous Metal Research. Published by Elsevier BV. All
rights reserved.
Number of references: 12
Main heading: Cerium alloys
Controlled terms: Alloys - Computer simulation - Finite element method
Uncontrolled terms: Average particle size - Experimental values - Finite element
software - Flow path - Infiltration process - Melt infiltration - Particle packings -
Porous system - Spherical particle - Velocity vector distribution - W-Cu alloys
Classification code: 531.1 Metallurgy - 547.2 Rare Earth Metals - 723.5 Computer
Applications - 921.6 Numerical Methods
Database: Compendex
Compilation and indexing terms, © 2013 Elsevier Inc.
14.
Accession number: 20130615997015
Title: Formation of micro spot-welding joint of rapidly solidified Ni-19.8%Sn alloy foils