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Investigation of magnetic response to plastic deformation of low-carbon steel

✍ Scribed by O. Stupakov; J. Pal’a; I. Tomáš; J. Bydžovský; V. Novák

Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
213 KB
Volume
462
Category
Article
ISSN
0921-5093

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✦ Synopsis

In this work results of magnetic investigation of structure degradation of low-carbon steel due to plastic tensile strain are presented. Two series of magnetically closed window-shaped and open strip-shaped specimens were deformed to different strains up to 20% and measured after unloading. Magnetic hysteresis and Barkhausen noise measurements were done with magnetization parallel to the strain direction. Two-peak profiles of differential permeability and Barkhausen noise envelope were found and explained by splitting of the domain wall motion into two stages due to residual intrinsic stresses. Influence of generated dislocation tangles on magnetization process is also considered.

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Hydrogen embrittlement of a low alloy steel has been studied using tensile tests and fracture mechanics techniques. Embrittlement was found to be caused by hydrogen-enhanced decohesion at internal interfaces. Hydrogen degradation of the relatively soft material requires that hydrogen is accumulated