Since metal matrix composites (MMC) are composed from two very distinct materials each having their own physical and mechanical properties, it is feasible that the fatigue resistance depends on the strength of the weaker constituent. Based on this assumption, isothermal fatigue lives of several MMC's were analyzed utilizing a fatigue life diagram approach. For each MMC, the fatigue life diagram was quantified using the mechanical properties of its constituents. The fatigue life regions controlled by fiber fracture and matrix were also quantitatively defined
Composite Because of their high specific stiffness and strength at elevated temperatures, continuous...
This thesis treats the mechanical properties of discontinuously reinforced metal matrix composites, ...
Theory of Cells and a numerical FE method based on strain cyclic plasticity, damage model and techno...
A general overview of the fatigue behavior of metal matrix composites (MMC) is presented. The first ...
Discontinuous and particulate metal matrix composites have emerged as a set of materials which has f...
The framework of a mechanics of materials model is proposed for thermomechanical fatigue (TMF) life ...
Stress-controlled isothermal fatigue experiments were performed at room temperature (RT) and 548 C (...
Theory of Cells and a numerical FE method based on strain cyclic plasticity, damage model and techno...
A strain-based fatigue life prediction method is proposed for an intermetallic matrix composite (IMC...
AbstractFatigue characterization of metal matrix composites by experimental methods are being pursue...
Metal Matrix Composites (MMC) and Intermetallic Matrix Composites (IMC) were identified as potential...
In a variety of engineering and mechanical research domains, composite materials have become a via...
The potential structural benefits of unidirectional, continuous-fiber, metal matrix composites (MMC'...
A micro-mechanical damage model for high cycle fatigue loading based on thermo-dynamical principles ...
A life prediction model is being developed by the authors for application to metal matrix composites...
Composite Because of their high specific stiffness and strength at elevated temperatures, continuous...
This thesis treats the mechanical properties of discontinuously reinforced metal matrix composites, ...
Theory of Cells and a numerical FE method based on strain cyclic plasticity, damage model and techno...
A general overview of the fatigue behavior of metal matrix composites (MMC) is presented. The first ...
Discontinuous and particulate metal matrix composites have emerged as a set of materials which has f...
The framework of a mechanics of materials model is proposed for thermomechanical fatigue (TMF) life ...
Stress-controlled isothermal fatigue experiments were performed at room temperature (RT) and 548 C (...
Theory of Cells and a numerical FE method based on strain cyclic plasticity, damage model and techno...
A strain-based fatigue life prediction method is proposed for an intermetallic matrix composite (IMC...
AbstractFatigue characterization of metal matrix composites by experimental methods are being pursue...
Metal Matrix Composites (MMC) and Intermetallic Matrix Composites (IMC) were identified as potential...
In a variety of engineering and mechanical research domains, composite materials have become a via...
The potential structural benefits of unidirectional, continuous-fiber, metal matrix composites (MMC'...
A micro-mechanical damage model for high cycle fatigue loading based on thermo-dynamical principles ...
A life prediction model is being developed by the authors for application to metal matrix composites...
Composite Because of their high specific stiffness and strength at elevated temperatures, continuous...
This thesis treats the mechanical properties of discontinuously reinforced metal matrix composites, ...
Theory of Cells and a numerical FE method based on strain cyclic plasticity, damage model and techno...
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