About the Mechanism of Deformation at Martensite Transformation in the Fe-31 wt%Ni Alloy

Vyacheslav Gundyrev; Vitaly Zel'dovich

doi:10.4028/www.scientific.net/MSF.738-739.20

Paper Titles

Preface, Committee and Sponsors

Fundamental Achievements of the Dynamic Theory of Reconstructive Martensitic Transformations
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Stress-Free Strains in Martensitic Microstructures
p.10

Phase Stability at Martensitic Transformation in Zr-Based Shape Memory Intermetallics
p.15

About the Mechanism of Deformation at Martensite Transformation in the Fe-31 wt%Ni Alloy
p.20

Effect of Titanium Carbide Inclusions on Morphology of Low-Carbon Steel Martensite
p.25

Superelasticity of Single Crystalline Fe-30.8 at.%Pd Alloy
p.33

Effect of Partial Thermal Cycles on Non-Chemical Free Energy Contributions in Polycrystalline Cu-Al-Be Shape Memory Alloy
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Calorimetric Study of Avalanche Criticality in the Martensitic Phase Transition of Cu_67.64Zn_16.71Al_15.65
p.46

HomeMaterials Science ForumMaterials Science Forum Vols. 738-739About the Mechanism of Deformation at Martensite...

About the Mechanism of Deformation at Martensite Transformation in the Fe-31 wt%Ni Alloy

Abstract:

The criterion of an estimation of a reality of the mechanism of deformation of a lattice at martensite transformation is proposed. The most real mechanism of deformation of a lattice in FeNi alloy with the twinned martensite is determined. The Kurdjumov-Sachs shear on a plane (111) fcc in a direction [11-2] fcc is the basic component of deformation of a lattice in the given mechanism.

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Materials Science Forum (Volumes 738-739)

Pages:

20-24

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.738-739.20

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Online since:

January 2013

Authors:

Vyacheslav Gundyrev, Vitaly Zel'dovich

Keywords:

Crystallographic Theory, Habit Plane, Lattice Deformation, Lattice Invariant Deformation, Martensite

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References

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