Effect of microstructure and notch root radius on fracture toughness of an aluminum metal matrix composite

The effects of systematic changes in reinforcement size and matrix microstructure on the crack initiation and growth toughness of a 7091 aluminum alloy reinforced with SiC particulates were studied. It is shown that changes in matrix microstructure have a significant effect on both initiation and gr

The present work is amid to investigate the effect of notch root radius and specimen size (thickness B and ligament b) on the apparent fracture toughness K I,app . Series of fracture tests on non standard compact tension CT specimen of AISI 4340 low alloy steel with different values of notch root ra

Abatraet-A model is presented which describes the relationship of plane strain fracture toughness (K,,) and yield strength of particle-reinforced metal matrix composites. Tensile tests and fracture toughness tests were conducted on five aluminum 2014-T6 metal matrix composites reinforced with 10 and

This note serves to report some short bar and short rod fracture toughness results for COMRAL-85 TM [ 1], a metal matrix composite consisting of aluminium alloy 6061 reinforced with alumina-based ceramic microspheres.