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eBook Micromechanisms in Particle-Hardened Alloys (Cambridge Solid State Science Series) ePub

eBook Micromechanisms in Particle-Hardened Alloys (Cambridge Solid State Science Series) ePub

by J. W. Martin

  • ISBN: 0521226236
  • Category: Engineering
  • Subcategory: Engineering
  • Author: J. W. Martin
  • Language: English
  • Publisher: Cambridge University Press (August 31, 1980)
  • Pages: 212
  • ePub book: 1275 kb
  • Fb2 book: 1727 kb
  • Other: mbr lrf azw lrf
  • Rating: 4.5
  • Votes: 182

Description

Micromechanisms in Particle-Hardened Alloys book.

Micromechanisms in Particle-Hardened Alloys book. This book was first published in 1980.

This book was first published in 1980. A great number of metallic materials in practical use owe their strength to the presence in their microstructure of particles of a hard precipitated phase. The text emphasises the importance of scientific rather than empirical methods in attempting to develop particle-hardened alloys. The author progresses from an elementary knowledge of metallurgy to theories relating to the deformation and fracture of alloys of this type. He also discusses the use of such theories to describe observations on both model materials and practical metals.

Micromechanisms in Particle-Hardened Alloys. Seller Inventory BBS-9780521295802.

The alloyed powders contained only small amounts of intermetallic, but during the consolidation heat treatment, two of. .Martin: Micromechanisms in Particle-Hardened Alloys, Cambridge University Press, Cambridge, United Kingdom, 1980, p. 4. oogle Scholar.

The alloyed powders contained only small amounts of intermetallic, but during the consolidation heat treatment, two of the materials precipitated large volume fractions of Cr2Nb. In the third material, Cr2Nb was precipitated by heat treatment, although this was not expected from the composition based on the Nb-Cr-Ti phase diagram. 16. F. Laves: Theory of Alloy Phases, ASM, Cleveland, OH, 1956, p. 13.

Micromechanisms in Particle-Hardened Alloys Martin J. Martin . 2013 Серия: Cambridge solid state science series Язык: ENG Иллюстрации: Illustrations, bibliography, index Размер: 2. 9 x 1. 0 x . 4 cm Читательская аудитория: Tertiary education (us: college) Рейтинг: Поставляется из: Англии Описание: This 1980 text emphasises the importance of scientific rather than empirical methods in attempting to develop particle-hardened alloys.

ABSTRACT: In the present study, the microstructural evolution during aging at 1023, 1073, 1123 and 1173 K of a 35Cr-45Ni heat resistant alloy, produced in the form of centrifugally cast tubes, was characterized by means of light optical microscopy, scanning electron microscopy (SEM) with.

ABSTRACT: In the present study, the microstructural evolution during aging at 1023, 1073, 1123 and 1173 K of a 35Cr-45Ni heat resistant alloy, produced in the form of centrifugally cast tubes, was characterized by means of light optical microscopy, scanning electron microscopy (SEM) with secondary and backscattered electron imaging, energy-dispersive X-ray spectroscopy (EDS) and Vickers hardness tests.

Martin, Micromechanisms in Particle-Hardening Alloys Cambridge Solid State Science Series, Syndicate of the University of Cambridge, Cambridge, England, 1980. Microstructure evolution and deformation behavior of ultrafine-grained Al–Zn–Mg alloys with fine η′ precipitates. Deformation processing enhanced the strength of the alloy, but limited its work hardenability. An analysis of deformation mechanisms revealed that plasticity proceeded by dislocation slip through ultrafine-grained cellular and subgrain arrangements. ′ precipitates strengthened the alloy by dispersion hardening, but retarded an increase in the strain rate sensitivity during grain refinement. J W Martin; S J Martin. This button opens a dialog that displays additional images for this product with the option to zoom in or out. Tell us if something is incorrect. Micromechanisms in Particle-Hardened Alloys.

Chartered engineer, England. Lieutenant Commander Royal Naval Reserve, 1958-1971.

The book deals with the development of many new NMR capabilities, including high-resolution techniques for solids, multi-dimensional methods, deuterium NMR and others. All of these developments have contributed to a dramatic increase in the power and applicability of NMR for the characterization, at a molecular level, of the dynamics and structural organization of polymeric solids.

This book was first published in 1980. A great number of metallic materials in practical use owe their strength to the presence in their microstructure of particles of a hard precipitated phase. The text emphasises the importance of scientific rather than empirical methods in attempting to develop particle-hardened alloys. The author progresses from an elementary knowledge of metallurgy to theories relating to the deformation and fracture of alloys of this type. He also discusses the use of such theories to describe observations on both model materials and practical metals. After a discussion of the microstructures of these alloys, how they form and how to describe them quantitatively, their deformation and fracture behaviour at both low and elevated temperatures are examined.