P. F. Weinrich
Australian Department of Defence
Hydrostatic equilibriumMetallurgyMaterials scienceStructural materialShear zoneAlloyHydrostatic pressureAluminiumMachiningVoid (astronomy)
1Publications
1H-index
22Citations
Publications 1
Newest
The effects of hydrostatic pressures up to 600 MPa on the tensile fracture mechanisms of commercial aluminum and a free machining aluminum-copper alloy have been investigated. Tensile fracture of the commercial aluminum was found to occur by a mechanism leading to double-cup fracture at hydrostatic pressures up to 125 MPa with the pressure causing a progressive delay in the onset of void development. Above this pressure, void development was suppressed and all fractures occurred at chisel points...
Source
This website uses cookies.
We use cookies to improve your online experience. By continuing to use our website we assume you agree to the placement of these cookies.
To learn more, you can find in our Privacy Policy.