Interface Microstructure and Mechanical Properties of SiCp/2014Al Aluminum Matrix Composite Vacuum Brazing Joint

Tao Feng; Yong Ang Zhang; Zhen Qi Yu; Yin Zhen Wang

doi:10.4028/www.scientific.net/AMM.152-154.156

Paper Titles

Simulation and Springback Prediction of Integral Panel with High Ribs in Age Forming
p.135

Structure of Mold Surface for Stress Relaxation Forming of Integral Panel of 2124 Aluminum Alloy
p.140

Explicit Expression of Stresses Field in Semi-Infinite Elastic Solid
p.145

Tensile Behavior of Rolled and Annealed Copper Thin Foils
p.151

Interface Microstructure and Mechanical Properties of SiCp/2014Al Aluminum Matrix Composite Vacuum Brazing Joint
p.156

Theoretical Research on Microwave Assisted Magnetic Moment Reversal in Magnetic Recording Media
p.162

Design of ZrO₂/Ti Functionally Graded Thermal Barreir Coatings Based on a Nonlinear Micromechanical Approarch
p.167

The Research of Energy Analysis Based on Intelligent Algorithm in Ferroalloy Enterprise
p.171

Hydro Thermo-Baric Processing and Properties of Nano Silica from Rice Husk
p.177

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 152-154Interface Microstructure and Mechanical Properties...

Interface Microstructure and Mechanical Properties of SiCp/2014Al Aluminum Matrix Composite Vacuum Brazing Joint

Abstract:

This paper describes the brazing technique of SiCp/2014Al aluminum matrix composite. The surface reinforcements were partly exposed and the surface was deposited by vapor deposition process. Observing the microstructure of the brazing joint, Cu and M6 aluminum filler metal are more adaptable for the brazing process than Ti and 4047 aluminum filler metal. The tensile strength of the as-welded joint can reach 181MPa. The fractography of the brazing joint indicates that the fill metal can not wet the parent composite, which is the main reason for the loss of strength. Furthermore, the porosity caused by high brazing temperature and the aggregated reinforcement on the parent composite are two other important reasons for the brazing joint strength lost.