Ceramic matrix composites presently being developed are potentially well suited for high temperature structural applications. The character of the fiber-matrix bond plays a significant role in determining the fracture toughness of the material and thus its performance. Increased toughness is achieved by phenomena such as interface debonding and fiber slip or pull-out, which improve material toughness by increasing the energy required to propagate a crack [1]. In a bond that is too weak, the toughening mechanisms are not significant. However, a bond that is too strong permits a crack to propagate directly through a fiber-matrix interface without being significantly affected, resulting in brittle fracture. As a result, care is required in the...
The mechanical behavior of fiber-reinforced SiC/Si$\sb3$N$\sb4$ ceramic matrix composites has been a...
A brief summary of the progress of the research in the internal structural characterization of metal...
The influence of fiber/matrix interface microstructure and interfacial shear strength on the mechani...
Limitations of ceramic materials such as brittleness, low tensile strength and low fracture toughnes...
Limitations of ceramic materials such as brittleness, low tensile strength and low fracture toughnes...
Mechanical properties of unidirectional Nicalon SiC fiber reinforced Ca aluminosilicate (CAS/SiC) an...
An understanding of the dependence of the fiber-matrix interface deformation and debonding on residu...
Ceramic matrix composites are composite materials with ceramic fibers in a high temperature matrix o...
Results are presented that elucidate (a) the effects of fiber coating on retained fiber strength and...
Three types of acousto-ultrasonic (AU) measurements, stress-wave factor (SWF), lowest antisymmetric ...
A review of ceramic matrix composites development over the past thirty years is presented, with emp...
A test specimen was devised for measuring stress transfer between a high modulus fiber and a ceramic...
One of the most challenging problems in nondestructive evaluation of composite materials is the insp...
Ceramic fiber–matrix composites (CFMCs) are exciting materials for engineering applications in extre...
Ceramic Matrix Composites (CMCs) represent an attractive class of engineering materials for use in h...
The mechanical behavior of fiber-reinforced SiC/Si$\sb3$N$\sb4$ ceramic matrix composites has been a...
A brief summary of the progress of the research in the internal structural characterization of metal...
The influence of fiber/matrix interface microstructure and interfacial shear strength on the mechani...
Limitations of ceramic materials such as brittleness, low tensile strength and low fracture toughnes...
Limitations of ceramic materials such as brittleness, low tensile strength and low fracture toughnes...
Mechanical properties of unidirectional Nicalon SiC fiber reinforced Ca aluminosilicate (CAS/SiC) an...
An understanding of the dependence of the fiber-matrix interface deformation and debonding on residu...
Ceramic matrix composites are composite materials with ceramic fibers in a high temperature matrix o...
Results are presented that elucidate (a) the effects of fiber coating on retained fiber strength and...
Three types of acousto-ultrasonic (AU) measurements, stress-wave factor (SWF), lowest antisymmetric ...
A review of ceramic matrix composites development over the past thirty years is presented, with emp...
A test specimen was devised for measuring stress transfer between a high modulus fiber and a ceramic...
One of the most challenging problems in nondestructive evaluation of composite materials is the insp...
Ceramic fiber–matrix composites (CFMCs) are exciting materials for engineering applications in extre...
Ceramic Matrix Composites (CMCs) represent an attractive class of engineering materials for use in h...
The mechanical behavior of fiber-reinforced SiC/Si$\sb3$N$\sb4$ ceramic matrix composites has been a...
A brief summary of the progress of the research in the internal structural characterization of metal...
The influence of fiber/matrix interface microstructure and interfacial shear strength on the mechani...