In the present paper, fracture mechanisms and corresponding stress distributions in aluminium cast alloy locally reinforced by SiC particles and Al2O3 whiskers under monotonic and cyclic load are investigated experimentally and numerically. The material is monotonically and cyclically deformed to failure at room temperature. The fracture origin and the fracture path are investigated on the fracture surfaces. The fracture occurs in the reinforced part under both monotonic and cyclic loads. Scanning electron microscope (SEM) analysis of fracture surface shows that the fatigue fracture is controlled by the fracture of coarse Al2O3 whiskers. The static fracture (monotonic loading) shows that the fracture mechanism is the combination of reinforc...
This study contributes to our understanding of the damage evolution and fracture behaviour of two-ph...
Particle reinforcement is an efficient way to improve, for example, the stiffness and wear resistanc...
Metal Matrix ceramic-reinforced composites are rapidly becoming strong candidates as structural mate...
In the present paper, fracture mechanisms and corresponding stress distributions in aluminium cast a...
In this paper, fracture mechanisms under monotonic and cyclic load and its stress distribution of an...
指導教員: 埼玉大学大学院理工学研究科教授 荒居善雄This dissertation presents the research work done for the degree of Doctor...
To contribute to a better understanding of the fracture mechanisms and stress distributions of alumi...
Metal Matrix Composites (MMCs) are engineering materials in which a hard ceramic component is disper...
The fatigue crack propagation behaviour of a cast hybrid metal matrix composite (MMC) was investigat...
In this study, the micro-mechanisms involved in fatigue crack propagation are investigated qualitati...
[出版社版]In this study, the effect of whisker orientation on monotonic and fatigue strength of aluminiu...
In this research paper the tensile properties and fracture characteristics of an Al–Cu–Mg alloy disc...
In this paper the effect of reinforcement crack position and loading conditions (in mode I) on the s...
In this research paper the tensile properties and fracture characteristics of aluminum alloy 2009 di...
This work was primarily concerned with investigating the role of the reinforcing particles on plast...
This study contributes to our understanding of the damage evolution and fracture behaviour of two-ph...
Particle reinforcement is an efficient way to improve, for example, the stiffness and wear resistanc...
Metal Matrix ceramic-reinforced composites are rapidly becoming strong candidates as structural mate...
In the present paper, fracture mechanisms and corresponding stress distributions in aluminium cast a...
In this paper, fracture mechanisms under monotonic and cyclic load and its stress distribution of an...
指導教員: 埼玉大学大学院理工学研究科教授 荒居善雄This dissertation presents the research work done for the degree of Doctor...
To contribute to a better understanding of the fracture mechanisms and stress distributions of alumi...
Metal Matrix Composites (MMCs) are engineering materials in which a hard ceramic component is disper...
The fatigue crack propagation behaviour of a cast hybrid metal matrix composite (MMC) was investigat...
In this study, the micro-mechanisms involved in fatigue crack propagation are investigated qualitati...
[出版社版]In this study, the effect of whisker orientation on monotonic and fatigue strength of aluminiu...
In this research paper the tensile properties and fracture characteristics of an Al–Cu–Mg alloy disc...
In this paper the effect of reinforcement crack position and loading conditions (in mode I) on the s...
In this research paper the tensile properties and fracture characteristics of aluminum alloy 2009 di...
This work was primarily concerned with investigating the role of the reinforcing particles on plast...
This study contributes to our understanding of the damage evolution and fracture behaviour of two-ph...
Particle reinforcement is an efficient way to improve, for example, the stiffness and wear resistanc...
Metal Matrix ceramic-reinforced composites are rapidly becoming strong candidates as structural mate...