Jump‐like twin boundary movement in indium crystals

Fomenko, L. S.

doi:10.1002/crat.19790140418

Cryst Res and Technol

1979

DOI: 10.1002/crat.19790140418

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Jump‐like twin boundary movement in indium crystals

L. S. Fomenko

Abstract: LS. F o~~Physico-Technical Institute of Low Temperatures, UhSSR Academy of Sciences, Kharkov, USSR Jump-llke Twin Baundary Movement in Indium CrystalsThis Is an investigation of the specific features of twin boundary movement by creep in indium crystals at room temperature. It has been shown that in the most structurally perfect crystAls, broadening of twin layers is jump-like. Jumpe in the b e t i c relations for boundary displacement are the most pronounced where the initial boundary velocity becomes a s hig… Show more

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1980

1985

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Dynamics of twin layer widening in In‐Pb crystals

Lubenets

Fomenko

1980

Cryst Res and Technol

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The authors studied mobility of boundaries of plane-parallel twin layers in In-0.2 wt.% P b and In-2 wt.% P b crystals in the temperature range 290-373 K when stresses are applied t / G = (1.35 -7) x (G is the shear modulus). They found t h a t lead concentration increase as well as dislocation structure deterioration result in lower boundary velocity for a constant stress. I n In-2 wt.% P b crystals, the boundary velocity is well describable asactivation energy depending on the stress, ranging under these circumstances from 0.33 to 0.43 eV.At present it is difficult to interpret the results at hand. The analysis allows only to assume t h a t the change in the boundary movement activation energy for impure crystals as against that for pure ones can be associated with the impurity effect on the structure of the intermediate zone between the twin and the matrix. The dependence of the preexponential factor on the stress is probably due to the effect of the internal long-range stress field on sources of twinning dislocations.Comparison with data for calcite and pure indium shows that twin boundary mobility parameters and theii dependence on the stress are governed by the crystal type and defect structure.

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Dynamics of twin layer widening in In‐Pb crystals

Lubenets

Fomenko

1980

Cryst Res and Technol

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Dynamics of twinning in metals and alloys

Lubenets

Startsev

Fomenko

1985

phys. stat. sol. (a)

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Jump‐like twin boundary movement in indium crystals

Cited by 2 publications

References 4 publications

Dynamics of twin layer widening in In‐Pb crystals

Dynamics of twin layer widening in In‐Pb crystals

Dynamics of twinning in metals and alloys

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