Paper Titles

Preface, Committees and Sponsors

Dynamic Transformation during Simulated Hot Rolling
p.1

Multiple, Simultaneous, Martensitic Transformations: Implications on Transformation Texture Intensities
p.9

Atomic Scale Investigation of Solutes and Precipitates in High Strength Steels
p.14

Numerical Simulation of Hot Rolling
p.22

Formation of an Ultrafine-Grained Austenite-Containing Microstructure from a Cold-Rolled Medium-Manganese Steel Processed Using Intercritical Annealing
p.31

The Thermomechanical Controlled Processing of High-Strength Steel Plate: A New View of Toughness Based on Modern Metallography
p.38

Comparison of Material Properties and Creep Behavior of 20MnCr5 and S275JR Steels
p.47

Control of Microstructure by MaxStrain Device
p.55

HomeMaterials Science ForumMaterials Science Forum Vol. 762Multiple, Simultaneous, Martensitic...

Multiple, Simultaneous, Martensitic Transformations: Implications on Transformation Texture Intensities

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Abstract:

A Theory is Developed for Martensite Variants that have Different Start Temperatures but Existin the same Steel. Themethod Enables the Volume Fractions of each Kind Ofmartensite to be Followed Asa Function of the Steel Temperature. the Problemis Relevant to the Calculation of Detail in Transformationtexture when Phase Changes Occur under the Influence of External Stress. it should Allow for the Firsttime, the Estimation of both the Location of Crystallographic Poles on a Stereographic Projection, Andthe Diffraction Intensity Associated with that Location. it is Found that the Increment of Transformationas a Function of Undercooling is Identical for all Variants, once Simultaneous Transformation Begins.Any Variance in the Absolute Fractions is due to the Differences in the Martensite-Start Temperature.

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Physical and Numerical Simulation of Materials Processing VII

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Periodical:

Materials Science Forum (Volume 762)

Pages:

9-13

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.762.9

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Online since:

July 2013

Authors:

Harshad K.D.H. Bhadeshia

Keywords:

Diffraction Intensity, Displacive Transformations, Multiple Martensitic Transformations, Simultaneous Reactions, Transformation Texture

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