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Uncovering the tension-compression asymmetry of low stacking fault FCC alloys...
A certain type of alloys, with face-centered-cubic (FCC) structure and medium to low stacking fault energies (SFE), can trigger the formation of multiple twins (mechanical... -
Internal phase strain evolution during high temperature deformation of model ...
Alpha-beta Ti and Zr alloys are an important class of high strength alloys used in aerospace and nuclear power generation. They are unique in that their mechanical properties... -
Deformation mechanisms in several simple alloys to underpin creep damage char...
The proposal is to study three alloys, both at high temperature and room temperature, to corroborate strain results obtained through high resolution digital image correlation.... -
Internal phase strain evolution during high temperature deformation of model ...
Alpha-beta Ti and Zr alloys are an important class of high strength alloys used in aerospace and nuclear power generation. They are unique in that their mechanical properties... -
Deformation mechanisms of a newly developed Ni-base superalloy at cryogenic t...
Haynes 282 is a novel Ni-base superalloy, combining excellent weldability and general processability with moderate cost. As such, it is very promising for e.g. industrial gas... -
The effect of strain-path on the anisotropy of a dual phase steel
Steels often have anisotropic mechanical properties due to texture or internal stress generated by deformation. Recently it has become desirable to control this anisotropy, to... -
Deforming TWIP steels at cryogenic temperatures
Dense mechanical twins and phase transformation are the most attractive athermal transformation processes since they can endow alloys with significant strength enhancement as...
