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Detection of plastic deformation gradients in steel using scanning SQUID microscopy
By: Clatterbuck, D.M.; Morris, J.W., Jr.; Clarke, J.; Hsiao-Mei Cho; Heinig, N.F.; Shaw, T.J.; Tae-Kyu Lee;
2001 / IEEE
This item was taken from the IEEE Periodical ' Detection of plastic deformation gradients in steel using scanning SQUID microscopy ' Scanning SQUID microscopy is shown to be capable of detecting deformation gradients when accompanied by significant changes in hardness. Deformation which does not increase the dislocation density (as measured by the increase in hardness) has little effect. The effect can be produced by different techniques including cold rolling and tensile deformation. The effect is shown to occur in at least two different alloys with very different microstructures indicating the possibility of wide applicability.
Plastic Deformation Gradient Detection
Scanning Squid Microscopy
Magnetic Domain Walls
Magnetic Force Microscopy
Engineered Materials, Dielectrics And Plasmas
Fields, Waves And Electromagnetics