Add to ORKGTwo differently heat-treated AerMet-100 alloy cylinders were explosively driven to fragmentation. Soft-captured fragments were studied to characterize the deformation and damage induced by high explosive loading. The characterization of the fragments reveals that the dominant failure mechanism appears to be dynamic fracture along adiabatic shear bands. These shear bands differ in size and morphology depending on the heat-treated conditions. Nanoindentation measurements of the adiabatic shear bands in either material condition indicate higher hardness in the bands compared to the matrix regions of the fragments
The microstructural evolution and formation mechanism of adiabatic shear band (ASB) in a high-streng...
Explosively driven fragmentation of ductile metals cylinders is a highly complex phenomenon. In this...
Adiabatic shear bands in explosives may be a source of ignition and lead to detonation. Three possib...
Cylinders and rings fabricated from AerMet{reg_sign} 100 alloy and AISI 1018 steel have been explosi...
The adiabatic shear bands (ASB) of the tubular metal specimens expanded explosively have been studie...
The adiabatic shear bands (ASB) of the tubular metal specimens expanded explosively have been studie...
Metals and alloys deformed at high strain rates, which are occurring during impact or metal forming ...
Metals and alloys deformed at high strain rates, which are occurring during impact or metal forming ...
Small scale explosions, using a detonator, of 7075 aluminium alloy cylinders, 15-100 mm outside dia...
This study concentrates on the development of experimental techniques that are of benefit to researc...
Tubular metal specimens are explosively expanded to fragmentation, and the effects of wall materials...
67-71A miniature assembly fabricated from aluminium alloy AA 2219 forging and 2.0 mm thick sheets i...
Explosively driven fragmentation of ductile metals cylinders is a highly complex phenomenon. In this...
Shear bands formation in collapsing thick walled cylinders occurs in a spontaneous manner. The advan...
Shear bands formation in collapsing thick walled cylinders occurs in a spontaneous manner. The advan...
The microstructural evolution and formation mechanism of adiabatic shear band (ASB) in a high-streng...
Explosively driven fragmentation of ductile metals cylinders is a highly complex phenomenon. In this...
Adiabatic shear bands in explosives may be a source of ignition and lead to detonation. Three possib...
Cylinders and rings fabricated from AerMet{reg_sign} 100 alloy and AISI 1018 steel have been explosi...
The adiabatic shear bands (ASB) of the tubular metal specimens expanded explosively have been studie...
The adiabatic shear bands (ASB) of the tubular metal specimens expanded explosively have been studie...
Metals and alloys deformed at high strain rates, which are occurring during impact or metal forming ...
Metals and alloys deformed at high strain rates, which are occurring during impact or metal forming ...
Small scale explosions, using a detonator, of 7075 aluminium alloy cylinders, 15-100 mm outside dia...
This study concentrates on the development of experimental techniques that are of benefit to researc...
Tubular metal specimens are explosively expanded to fragmentation, and the effects of wall materials...
67-71A miniature assembly fabricated from aluminium alloy AA 2219 forging and 2.0 mm thick sheets i...
Explosively driven fragmentation of ductile metals cylinders is a highly complex phenomenon. In this...
Shear bands formation in collapsing thick walled cylinders occurs in a spontaneous manner. The advan...
Shear bands formation in collapsing thick walled cylinders occurs in a spontaneous manner. The advan...
The microstructural evolution and formation mechanism of adiabatic shear band (ASB) in a high-streng...
Explosively driven fragmentation of ductile metals cylinders is a highly complex phenomenon. In this...
Adiabatic shear bands in explosives may be a source of ignition and lead to detonation. Three possib...