Add to ORKGMo-Si-B alloys, Real microstructures, Voronoi structures, Microstructural characterization, Modelling and finite element simulations, Effective material properties, Damage and Crack growth, tensile strength, fracture toughnessMagdeburg, Univ., Fak. für Maschinenbau, Diss., 2007by Praveen Goud Biragon
This research project is concerned with developing a fundamental understanding of the effects of pro...
In general, size, shape and dispersion of phases in alloys significantly affect mechanical propertie...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
Mo-Si-B silicides consisting of the phases {alpha}-Mo (Mo solid solution), Mo{sub 3}Si, and Mo{sub 5...
Molybdenum disilicide is a promising candidate material for high temperature structural uses. Howeve...
The objective of this project was to understand and improve high-temperature structural properties o...
Refractory metals and their alloys offer higher temperature alternatives to Ni-base superalloys. In ...
An investigation of how microstructural features affect the fracture and fatigue properties of a pro...
MoSi$\sb2$ is an intermetallic compound with potential use as a structural material in high temperat...
This research project is concerned with developing a fundamental understanding of the effects of pro...
The effects of substitutional alloying on the ductility of MoSi<SUB>2</SUB> single crystals are stud...
The influence of substitutional alloying elements (Al, Nb and W) on the mechanical properties of MoS...
Mo-Si-B intermetallics consisting of the phases Mo3Si, Mo5SiB2, and α-Mo (Mo solid solution) can be ...
Boron-containing molybdenum silicides have been the focus ofsigP`I%y3 research of late due to the...
Molybdenum matrix Mo-Si-B materials are promising candidates for high temperature applications in ox...
This research project is concerned with developing a fundamental understanding of the effects of pro...
In general, size, shape and dispersion of phases in alloys significantly affect mechanical propertie...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...
Mo-Si-B silicides consisting of the phases {alpha}-Mo (Mo solid solution), Mo{sub 3}Si, and Mo{sub 5...
Molybdenum disilicide is a promising candidate material for high temperature structural uses. Howeve...
The objective of this project was to understand and improve high-temperature structural properties o...
Refractory metals and their alloys offer higher temperature alternatives to Ni-base superalloys. In ...
An investigation of how microstructural features affect the fracture and fatigue properties of a pro...
MoSi$\sb2$ is an intermetallic compound with potential use as a structural material in high temperat...
This research project is concerned with developing a fundamental understanding of the effects of pro...
The effects of substitutional alloying on the ductility of MoSi<SUB>2</SUB> single crystals are stud...
The influence of substitutional alloying elements (Al, Nb and W) on the mechanical properties of MoS...
Mo-Si-B intermetallics consisting of the phases Mo3Si, Mo5SiB2, and α-Mo (Mo solid solution) can be ...
Boron-containing molybdenum silicides have been the focus ofsigP`I%y3 research of late due to the...
Molybdenum matrix Mo-Si-B materials are promising candidates for high temperature applications in ox...
This research project is concerned with developing a fundamental understanding of the effects of pro...
In general, size, shape and dispersion of phases in alloys significantly affect mechanical propertie...
We have investigated the mechanical behavior of the following single-phase polycrystalline alloys wi...