Structural changes and strengthening in the strain tempering of martensite

the second boundary to move confirmed that the substructure driving force no longer existed or at least had been reduced to a value too small to support grain growth. This technique for the removal of substructure from high-purity metal single crystals has been successfully applied by R. W. Waterstr

The fracture toughness of the tempered martensitic stainless steel Eurofer97 has been experimentally characterized in the ductile-to-brittle transition (DBT) region with sub-sized compact tension specimens. The median fracture toughnesstemperature curve in the lower transition region has been found

EDITOR ## Comments on "Accommodation strains in martensite formation and the use of a dilatation parameter"(l)\* Christian(i) has applied Eshelby's strain energy cale~lations to the nucleation problem of a thin ablate spheroid of martensite in order to investigate the dependence of the shear stra

The performance of ferroelectric devices when operated over a wide temperature range is subject to considerable changes resulting from the temperature dependence of strain characteristics of the functional materials. The effects of temperature on poling strain and strain under unipolar cycling at el

## Discussion of "Comments on accommodation strains in martensite formation and the use of a dilatation parameter"\* My views on the nucleation of martensi~ are closely similar to those of Dr. Kaufman, and I am indebted to him for an advance copy of his excellent review article, written in collabo

The influence of tempering temperature on the reversed austenite formation and tensile properties are investigated in Fe-13%Cr-4%Ni-Mo low carbon martensite stainless steel in the temperature range of 550-950 • C. It is found that at the temperatures below 680 • C, the reversed austenite formation o