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Tuesday, August 4, 2020 | History

1 edition of Electron Backscatter Diffraction in Materials Science found in the catalog.

Electron Backscatter Diffraction in Materials Science

by Adam J. Schwartz

  • 235 Want to read
  • 34 Currently reading

Published .
Written in English

    Subjects:
  • Materials science,
  • Characterization and Evaluation of Materials,
  • Physical organic chemistry,
  • Surfaces (Physics),
  • Physical and theoretical Chemistry,
  • Biochemistry,
  • Animal Anatomy / Morphology / Histology,
  • Geochemistry,
  • Morphology (Animals),
  • Biochemistry, general

  • About the Edition

    Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials. The application has experienced rapid acceptance in metallurgical, materials, and geophysical laboratories within the past decade due to the wide availability of SEMs, the ease of sample preparation from the bulk, the high speed of data acquisition, and the access to complimentary information about the microstructure on a submicron scale. This entirely new second edition describes the complete EBSD technique, from the experimental set-up, representations of textures, and dynamical simulation, to energy-filtered, spherical, and 3-D EBSD, to phase identification, in situ experiments, strain mapping, and grain boundary networks, to the design and modeling of materials microstructures. Numerous application examples including the analysis of deformation microstructure, dynamic deformation and damage, and EBSD studies in the earth sciences provide details of this powerful materials characterization technique.

    Edition Notes

    Statementedited by Adam J. Schwartz, Mukul Kumar, Brent L. Adams
    ContributionsKumar, Mukul, editor, Adams, B. L. (Brent L.), editor, SpringerLink (Online service)
    Classifications
    LC ClassificationsTA404.6
    The Physical Object
    Format[electronic resource] /
    PaginationXVI, 339 p.
    Number of Pages339
    ID Numbers
    Open LibraryOL27034983M
    ISBN 109781475732054

    Schwartz has authored over journal articles, monographs, book chapters, technical reports and co-edited two editions of Electron Backscatter Diffraction in Materials Science (Kluwer Academic/Plenum Publishers, ; Springer, ). Dr. Schwartz holds B.S. and M.S. degrees in Metallurgical Engineering and a Ph.D. degree in Materials Science and. Summary: Providing the fundamental basis for electron backscatter diffraction in materials science, this book analyzes the current state of both hardware and software, and gives examples of applications of electron backscatter diffraction to a wide-range of materials.

    Electron backscatter diffraction is a very powerful and relatively new materials characterization technique aimed at the determination of crystallographic texture, grain boundary character distributions, lattice strain, phase identification, and much more. The purpose of this book is to provide the fundamental basis for electron backscatter diffraction in materials science, the current state.   Electron backscatter diffraction (EBSD) data yield plentiful information on microstructure and texture of natural as well as experimentally produced mineral and rock samples. For instance, the characterization of microstructures and textures Cited by:

      Electron backscatter diffraction (EBSD) is now a well developed technique that allows for determination of 'microtexture', i.e. texture at the scale of the grain size. The effect of the local crystallographic properties on microscopic and macroscopic cracking resistance was studied in a large number of by: In the development and study of new materials, the understanding of their crystal structure plays a crucial rule. Electron backscatter diffraction (EBSD), also known as backscatter Kikuchi diffraction (BKD), is a technique used to obtain accurate crystallographic information from bulk materials, thin films and nanostructures with high spatial resolution [] (of order 20 nm).


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Electron Backscatter Diffraction in Materials Science by Adam J. Schwartz Download PDF EPUB FB2

Electron backscatter diffraction is a very powerful and relatively new materials characterization technique aimed at the determination of crystallographic texture, grain boundary character distributions, lattice strain, phase identification, and much more. The purpose of this book.

Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials.

About this book Introduction Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials.

Electron backscatter diffraction patterns are typically captured as images from a flat phosphor screen that is conveniently situated relative to the electron beam and the material sample in the SEM. To interpret the Kikuchi bands on a given EBSD pattern in terms of atomic geometry in the material, a reference frame for the image is required.

Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture.

A detailed overview of this state-of-the-art method is given by the book of Schwartz et al. Electron channeling contrast image obtained with the backscattered electron (BSE) detector from the untilted sample. & Field, D. (): Electron Backscatter Diffraction in Materials Science.

Springer, New York; Zaefferer, S., Habler, G. Electron Backscatter Diffraction in Materials Science Editors: Adam J. Schwartz, Mukul Kumar, Brent L.

Adams, David P. Field Springer, Electron Backscatter Diffraction in Materials Science Edited by Adam J. Schwartz - Lawrence Livermore National Laboratory, CA, USA Mukul Kumar - Lawrence Livermore National Laboratory, CA, USAFile Size: 6MB.

The application of electron backscatter diffraction (EBSD) to halide perovskites has triggered multiple avenues to unambiguously correlate the micro‐structural arrangement of polycrystalline grains w. Electron Backscatter Diffraction in Materials Science edited by Adam J.

Schwartz, Mukul Kumar, David P. Field, and Brent L. Adams. Berlin: Springer, ISBN: 1 Processing and Application of Ceramics 6 [1] () 1–13 Electron backscatter diffraction in materials characterization Dejan Stojakovic1,2 1Materion Advanced Materials Group, 42 Mount Ebo Road South, Brewster, NYUSA 2Materion Corporation, Parkland Boulevard, Mayfield Heights, OHUSA Received 9 November ; received in revised form 24 February ; File Size: KB.

Electron backscatter diffraction (EBSD), when employed as an additional characterization technique to a scanning electron microscope (SEM), enables individual grain orientations, local texture, point-to-point orientation correlations, and phase identification and distributions to be determined routinely on the surfaces of bulk polycrystalline materials.5/5(1).

The purpose of this book is to provide the fundamental basis for electron backscatter diffraction in materials science, the current state of both hardware and Reviews: 2. Electron Backscatter Diffraction in Materials Science Schwartz, Adam J.

Adams, Brent L. Abstract. Publication: Electron Backscatter Diffraction in Materials Science edited by Adam J. Schwartz. Pub Date: Bibcode: .S full text sources. Publisher |Cited by: Materials Science Forum Microhardness measurements reveal a considerable increase of hardness after ECAP and microstructural investigations by electron backscatter diffraction (EBSD) show the beginning formation of a deformation-induced substructure which is known to be a preliminary stage of the grain refinement process.

An evaluation. Electron backscatter diffraction (EBSD) is a scanning electron microscope –based microstructural- crystallographic characterization technique commonly used in the study of crystalline or polycrystalline materials.

The technique can provide information about the structure, crystal orientation, phase, or. Available in: on backscatter diffraction is a very powerful and relatively new materials characterization technique aimed at the Get FREE SHIPPING on Orders of $35+ Customer information on COVID B&N Outlet Membership Educators Gift Cards Stores & Events Help Bn-logo_x47Price: $ Electron backscatter diffraction is a very powerful and relatively new materials characterization technique aimed at the determination of crystallographic texture, grain boundary character distributions, lattice strain, phase identification, and much more.

Overview. Electron backscatter diffraction is a very powerful and relatively new materials characterization technique aimed at the determination of crystallographic texture, grain boundary character distributions, lattice strain, phase identification, and much more.

The purpose of this book is to provide the fundamental basis for electron backscatter Author: Adam J. Schwartz. X-ray Diffraction and Elemental Analysis X-ray Fluorescence X-ray Diffraction Single Crystal X-ray Diffraction Small-Angle X-ray Scattering Handheld XRF LIBS Micro-XRF and TXRF X-ray Metrology EDS, WDS, EBSD, SEM Micro-XRF Optical Emission Spectrometry CS/ONH-Analysis Magnetic Resonance NMR MR in Pharma NMR Food Screening NMR Preclinical.

- Buy Electron Backscatter Diffraction in Materials Science book online at best prices in India on Read Electron Backscatter Diffraction in Materials Science book reviews & author details and more at Free delivery on qualified : Hardcover.

The purpose of this book is to provide the fundamental basis for electron backscatter diffraction in materials science, the current state of both hardware and software, and illustrative examples of the applications of electron backscatter diffraction to a wide-range of materials including undeformed and deformed metals and alloys, ceramics, and.Electron Backscatter Diffraction in Materials Science Adam J.

Schwartz, Mukul Kumar, Brent L. Adams Crystallographic texture or preferred orientation has long been known to .Electron Backscatter Diffraction in Materials Science. Adam J. Schwartz, Mukul Kumar, Brent L. Adams, David P. Field. Springer Science & Business Media, - Technology & Engineering - pages.

0 Reviews. Crystallographic texture or preferred orientation has long been known to strongly influence material properties.