Scale‐dependent hierarchy of structural elements in the microstructure of thermomechanical treated ferritic steels with residual austenite

Teplyakova, L. A.; Gershteyn, G.; Попова, Н. А.; Kozlov, E. V.; Ignatenko, L. N.; Springer, Ronald; Schaper, Mirko; Bach, Fr.‐W.

doi:10.1002/mawe.200900503

Cited by 1 publication

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“…При этом есть однозначная связь между величиной зоны макролокализации деформации и пластичностью стали, а именно: чем более пластична сталь, тем больший объем образца вовлекается в процесс локализации деформации на макроуровне. Позднее экспериментально были выявлены закономерности локализации пластической деформации в зеренном ансамбле, представленном наследованными от аустенита и реальными зернами мартенситной стали [7]. В этих работах было установлено, что в ходе активного нагружения имеет место самоорганизация пластичес кой деформации в группах реальных зерен.…”

Section: Introductionunclassified

“…Выделения цементита локализованы преимущественно на границах структурных составляющих мартенсита, в то время как местоположение специальных карбидов тесно связано с дислокационной субструктурой. В сетчатой субструктуре спецкарбиды расположены в узлах сеток, в ячеистой и фрагментированной -в стыках границ ячеек и фрагментов соответственно [7].…”

Section: Introductionunclassified

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Development of shear deformation in lath martensite of medium alloy steels under tension

Teplyakova

Kashin

Kunitsyna

2023

Izv. vysš. učebn. zaved., Čern. metall.

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Evolution of shear deformation in steel with the structure of tempered martensite was studied under active tension. Purpose of the work was to identify the patterns of deformation development at the scale-structural levels: package, plate, fragment of a package and a lath. The authors investigated the deformation relief formed at different stages of plastic deformation by optical, transmission and scanning electron microscopy. Quantitative characteristics of the deformation relief were measured: shear strength (P), distance (X) between the shear traces and their length. Statistical processing was carried out, the average values and relationship with the degree of plastic deformation were determined. It was established that development of shear deformation in the lath component of martensite occurs with the formation of two subsystems of shear traces: thin and coarse. Subsystems of thin traces are formed from the very beginning of plastic deformation. Appearance and evolution of the subsystem of coarse traces correlates with formation of the first (long) neck in the sample, and it is the main mechanism leading to the localization of plastic deformation on the sample scale. The places of localization of rough shift are the border areas of the laths and fragments of the package. Connection between localization of subsystems of coarse shear traces and formation of a fragmented dislocation structure were revealed. The values of the average shear power in thin <Pf> and coarse <Ps> traces do not depend on the degree of local plastic deformation of the sample in the entire range of deformation degrees and remain constant until destruction (<Pf> = 0.1 μm and <Ps> = 0.3 μm).

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Section: Introductionunclassified