Last edited by Nizil
Monday, October 19, 2020 | History

1 edition of Plastic Deformation in Nanocrystalline Materials found in the catalog.

Plastic Deformation in Nanocrystalline Materials

by Mikhail Yu Gutkin

  • 53 Want to read
  • 23 Currently reading

Published by Springer Berlin Heidelberg in Berlin, Heidelberg .
Written in English

    Subjects:
  • Mechanics,
  • Engineering,
  • Nanotechnology

  • About the Edition

    The purpose of this book is to serve as both an introductory course on the nanomechanics of deformed nanostructures and as a monograph providing a systematic overview of the current state of the art concerning the structure and deformation behavior of nanocrystalline materials. It is primarily concerned with up-to-date theoretical concepts and key experimental data on defects and plastic deformation processes in nanocrystalline matter. This book focuses on a very hot topic within materials science, and one that is both of great fundamental interest and of crucial importance for a wide range of nanotechnologies that rely on the unique mechanical properties of nanocrystalline materials.

    Edition Notes

    Statementby Mikhail Yu. Gutkin, Ilya A. Ovid"ko
    SeriesSpringer Series in Materials Science -- 74, Springer Series in Materials Science -- 74
    ContributionsOvid"ko, Ilya A.
    Classifications
    LC ClassificationsT174.7, TA418.9.N35
    The Physical Object
    Format[electronic resource] /
    Pagination1 online resource (x, 187 p. 69 illus.)
    Number of Pages187
    ID Numbers
    Open LibraryOL27081449M
    ISBN 103642059031, 366209374X
    ISBN 109783642059032, 9783662093740
    OCLC/WorldCa851387809

    A nanocrystalline (NC) material is a polycrystalline material with a crystallite size of only a few materials fill the gap between amorphous materials without any long range order and conventional coarse-grained materials. Definitions vary, but nanocrystalline material is commonly defined as a crystallite (grain) size below nm. Grain sizes from – nm are typically.   Nanomaterials and plastic deformation; proceedings. Annual Meeting of Chinese Materials Research Society, Session L ( Suzhou, China) Ed. by Jing Tao Wang. Trans Tech Publications pages $ Paperback Materials science forum; v TA

    With the rapid development of nano-preparation processes, nanocrystalline materials have been widely developed in the fields of mechanics, electricity, optics, and thermal physics. Compared to the case of coarse-grained or amorphous materials, plastic deformation in nanomaterials is limited by the reduction in feature size, so that they generally have high strength, but the toughness is Cited by: 4. Section 1 Production of Nanocrystalline Titanium by Large or Severe Plastic Deformation 1. High-pressure torsion and equal-channel angular pressing 2. Combined processing ECAP + TMP 3. Hydrostatic extrusion 4. Friction-stir processing 5. Production of bulk nanocrystalline mill products by conventional metalforming methods.

      Paradox of Strength and Ductility in Metals Processed Bysevere Plastic Deformation - Volume 17 Issue 1 - R. Z. Valiev, I. V. Alexandrov, Y. T. Zhu, T. C. LoweCited by: Book Description. Amorphous-nanocrystalline alloys are a relatively new class of materials born from the rapid development of new technologies and different methods of producing amorphous and nanocrystalline powders and films, compacting, melt quenching, megaplastic deformation, implantation, laser, plasma, and other high-energy methods.


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Plastic Deformation in Nanocrystalline Materials by Mikhail Yu Gutkin Download PDF EPUB FB2

It is primarily concerned with up-to-date theoretical concepts and key experimental data on defects and plastic deformation processes in nanocrystalline matter. This book focuses on a very hot topic within materials science, and one that is both of great fundamental interest and of crucial importance for a wide range of nanotechnologies that.

Plastic Deformation in Nanocrystalline Materials [ Gutkin, I.A. Ovid'ko] on *FREE* shipping on qualifying offers. It seems there is no special need to comment on the term 'nanostructure' now, when one often meets the 'nano' words not only in scientific journals but even in.

Localization of plastic flow in nanocrystalline materials Rotational plastic deformation in nanocrystalline materials Disclinations, amorphization and cracks at grain boundaries in nanocrystalline materials Conclusion.

Series Title: Springer series in materials science, v. Responsibility: M. Gutkin, I.A. Ovidʹko. Plastic deformation is the permanent distortion that occurs when a material is subjected to tensile, compressive, bending, or torsion stresses that exceed its yield strength and cause it to elongate, compress, buckle, bend, or twist.

Krieg, in Encyclopedia of Materials: Science and Technology, Plastic deformation of the cutting edge. The purpose of this book is to serve as both an introductory course on the nanomechanics of deformed nanostructures and as a monograph providing a systematic overview of the current state of the art concerning the structure and deformation behavior of nanocrystalline materials.

Get this from a library. Plastic Deformation in Nanocrystalline Materials. [Mikhail Yu Gutkin; I A Ovidʹko] -- The purpose of this book is to serve as both an introductory course on the nanomechanics of deformed nanostructures and as a monograph providing a systematic overview of the current state of the art.

Plastic Deformation Of Nanocrystalline Materials The book considers the internal stress fields that occur during the dislocation of behavior of these materials are described numerically via experimentally measured structural parameters. As was noted in Sectionplastic deformation in nanocrystalline metallic materials with finest grains occurs at very high stresses, and grain boundary sliding serves as one of its dominant deformation mechanisms.

In the context discussed, one expects that crack nucleation and growth processes in nanocrystalline metals with finest grains. Shareable Link. Use the link below to share a full-text version of this article with your friends and colleagues.

Learn by: 1. Nanocrystalline (nc) materials can be defined as solids with grain sizes in the range of 1– nm. Contrary to coarse-grained metals, which become more difficult to twin with decreasing grain.

the plastic deformation of metals Download the plastic deformation of metals or read online books in PDF, EPUB, Tuebl, and Mobi Format. Click Download or Read Online button to get the plastic deformation of metals book now. This site is like a library, Use search box in the widget to get ebook that you want.

Material processing techniques that employ severe plastic deformation have evolved over the past decade, producing metals, alloys and composites having extraordinary properties.

Variants of SPD methods are now capable of creating monolithic materials with submicron and nanocrystalline grain.

Plastic Deformation of Nanostructured Materials offers comprehensive analysis on the most important data and results in the field of materials strength and mechanics.

This reference systematically examines the special features of the mechanical behavior and corresponding structural mechanisms of cry.

Material processing techniques that employ severe plastic deformation have evolved over the past decade, producing metals, alloys and composites having extraordinary properties. Variants of SPD methods are now capable of creating monolithic materials with submicron and nanocrystalline grain sizes.

The resulting novel properties of these materials has led to a growing scientific and commercial. Book Review: Plastic Deformation in Nanocrystalline Materials. By M. Gutkin and I. Ovid'ko Article in Advanced Materials 17(20) October with 10 Reads.

Motyka’s main activity is focused on hot plasticity and fine-structure superplasticity phenomena in titanium alloys; as well as the characterization of ultrafine-grained materials –submicrocrystalline aluminium alloys and nanocrystalline titanium alloys – obtained by plastic consolidation and Format: Paperback.

The review of the theoretical models, which describes mechanisms of deformation twinning in nanocrystalline and ultrafine-grained materials, is presented. Realization of special mechanisms of nanoscale deformation twin generation at locally distorted grain boundaries (GBs) in nanocrystalline and ultrafine-grained materials is observed.

In particular, the micromechanisms of deformation twin Author: Nikolay Skiba. Influence of Microstructural Heterogeneity on the Mechanical Properties of Nanocrystalline Materials Processed by Severe Plastic Deformation (Pages: ) Z.

Pakiela M. Sus‐Ryszkowska. In the monograph, the first of this type in the world, the authors discuss systematically the current state of investigations into nanocrystalline materials.

The experimental results on the effect of the nanocrystalline state on the microstructure and the mechanical, thermophysical, optical, and magnetic properties of metals, alloys and solid-phase compounds are generalised. Journal of Metastable and Nanocrystalline Materials Journal of Nano Research stress corrosion cracking and extreme plastic deformation including analysis of the failures.

Several papers focus on the microstructure of materials and prediction of their lifespan based on the knowledge of damage processes. The book was comprised of the. Volume is indexed by Thomson Reuters CPCI-S (WoS).The peer-reviewed articles in this “Nanomaterials by Severe Plastic Deformation” special collection are a convincing demonstration of the relevance of bulk ultrafine grained and nanostructured materials, produced by severe plastic deformation, to a wide range of researchers and engineers., The total number of articles in this edition.Main Plastic Deformation of Nanocrystalline Materials Plastic Deformation of Nanocrystalline Materials Glezer, Aleksandr Markovich, Koneva, Nina Aleksandrovna, Kozlov, Ėduard Viktorovich, Kurzina, Irina Alexandrovna, Popova, N.tive deformation of the dense GB network that dominates the plastic behavior in nanocrystalline materials.

All experimental evidence shows that the pile-up of deformation left around residual impressions varies dramatically from homogeneous at large grain size (> 20 nm) to inhomogeneous with intense.