$Strain And Dislocation Gradients From Diffraction: Spatially-resolved Local Structure And Defects by Rozaliya I Barabash (Oak Ridge Nat'l Lab, Usa) at Abbey's Bookshop,$

Strain And Dislocation Gradients From Diffraction: Spatially-resolved Local Structure And Defects

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Rozaliya I Barabash (Oak Ridge Nat'l Lab, Usa) Gene Ice (Oak Ridge Nat'l Lab, Usa)

Strain And Dislocation Gradients From Diffraction

Spatially-resolved Local Structure And Defects

Rozaliya I Barabash (Oak Ridge Nat'l Lab, Usa), Gene Ice (Oak Ridge Nat'l Lab, Usa)

$388.95 $310.94

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English

Imperial College Press
20 May 2014

Microscopy; Classical mechanics

Summary
Details

This book highlights emerging diffraction studies of strain and dislocation gradients with mesoscale resolution, which is currently a focus of research at laboratories around the world. While ensemble-average diffraction techniques are mature, grain and subgrain level measurements needed to understand real materials are just emerging. In order to understand the diffraction signature of different defects, it is necessary to understand the distortions created by the defects and the corresponding changes in the reciprocal space of the non-ideal crystals.

Starting with a review of defect classifications based on their displacement fields, this book then provides connections between different dislocation arrangements, including geometrically necessary and statistically stored dislocations, and other common defects and the corresponding changes in the reciprocal space and diffraction patterns. Subsequent chapters provide an overview of microdiffraction techniques developed during the last decade to extract information about strain and dislocation gradients. X-ray microdiffraction is a particularly exciting application compared with alternative probes of local crystalline structure, orientation and defect density, because it is inherently non-destructive and penetrating.

Edited by: Rozaliya I Barabash (Oak Ridge Nat'l Lab Usa), Gene Ice (Oak Ridge Nat'l Lab, Usa)
Imprint: Imperial College Press
Country of Publication: United Kingdom
Dimensions: Height: 229mm, Width: 152mm, Spine: 27mm
Weight: 806g
ISBN: 9781908979629
ISBN 10: 1908979623
Pages: 480
Publication Date: 20 May 2014
Audience: College/higher education , Further / Higher Education
Format: Hardback
Publisher's Status: Active