1997
DOI: 10.1134/1.1130038
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Amorphous shear bands in deformed TiNi alloy

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Cited by 12 publications
(5 citation statements)
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“…Therefore, the static dislocation densities deter- mined post-mortem in the crystalline phase make it rather unlikely that a homogeneous formation of an amorphous phase by defect accumulation exceeding the stability limit could occur. It was proposed that in the developing shear bands the dislocation density could be higher than that expected by static defect accumulation [19]. Therefore the present observations of an inhomogeneous occurrence of the amorphous phase in the form of shear bands indicate that localized in the shear bands the dynamic accumulation of defects can lead to densities locally exceeding the stability limit.…”
Section: Amorphization Of Niti By Severe Plastic Deformationmentioning
confidence: 89%
“…Therefore, the static dislocation densities deter- mined post-mortem in the crystalline phase make it rather unlikely that a homogeneous formation of an amorphous phase by defect accumulation exceeding the stability limit could occur. It was proposed that in the developing shear bands the dislocation density could be higher than that expected by static defect accumulation [19]. Therefore the present observations of an inhomogeneous occurrence of the amorphous phase in the form of shear bands indicate that localized in the shear bands the dynamic accumulation of defects can lead to densities locally exceeding the stability limit.…”
Section: Amorphization Of Niti By Severe Plastic Deformationmentioning
confidence: 89%
“…It is proved that in steels and alloys, the megaplastic deformation and phase transition happen is often accompanied by phase transition precipitation and dissolution of phases, martensitic transformation, amorphization) These transitions occur in intermetallic compounds or multicomponent systems. [28][29][30] The effects of above-cited lubricants and number of ECAP passes on inner diameter are presented in Figure 8, which is deduced that inner diameter enhances in ECAP process. Also, it is proved that the sample exposed to different number of ECAP passes exhibits higher hardness.…”
Section: Effect Of Height Reductionmentioning
confidence: 99%
“…It is well known that NiTi is susceptible to amorphization as a result of various processing treatments and the formation of an amorphous phase was detected, for example in the case of ion beam mixing [31], mechanical alloying [32], ion implantation [33], shot peening [34], as well as cold rolling [24,26,35,36] and shear deformation [37]. However in these publications the amorphization of NiTi was [12] we demonstrate the formation of bulk amorphous NiTi alloy by HPT and the formation of a homogenous nanostructure by its crystallization and growth under controlled heating and annealing conditions.…”
Section: Discussionmentioning
confidence: 99%