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Friday, July 31, 2020 | History

5 edition of Metallurgical Applications of Shock-wave and High-strain Rate Phenomena (Mechanical Engineering (Marcell Dekker)) found in the catalog.

Metallurgical Applications of Shock-wave and High-strain Rate Phenomena (Mechanical Engineering (Marcell Dekker))

by Lawrence Eugene Murr

  • 18 Want to read
  • 28 Currently reading

Published by CRC .
Written in English

    Subjects:
  • Metals technology / metallurgy,
  • Shock waves,
  • Physical And Chemical Metallurgy,
  • Technology,
  • Technology & Industrial Arts,
  • Science/Mathematics,
  • Strains and stresses,
  • Engineering - Mechanical,
  • Metallurgy,
  • Technology / Engineering / Mechanical,
  • High energy forming,
  • Congresses

  • The Physical Object
    FormatHardcover
    Number of Pages1120
    ID Numbers
    Open LibraryOL8126109M
    ISBN 100824776127
    ISBN 109780824776121

    1 Shock Physics Papers , Abdulazeem, M.S. "Shock and detonation of liquid nitric oxide" J. Phys. D: Appl. Phys. 28 , Ahrens, T.J. and Johnson, M. Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena, by Lawrence E. Murr (Editor), International Conference on Metallurgical and Materials Applications O, K.P. Staudhammer, M.A. Meyers (Editors) ASIN: buy on

    dynamic consolidation of rapidly solidified metal powders", in "Metallurgical Applications of Shock-Wave and High Strain Rate Phenomena", ed. L.E. Murr, K.P. Staudhammer and M.A. Meyers, pp. , publ. New York, Marcel Dekker , Blazynski, T.Z. "Explosive compaction of ceramic and polymeric powdered. Metallurgical Applications of Shock-wave and High-strain Rate Phenomena, by Lawrence E. Murr, Karl P. Staudhammer, Marc A. Meyers, Marcel Dekker; (June 6, ) ISBN: buy on Russian Translation of Proceedings of Explomet Conference, (Editors) M. .

    Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena, with K. P. Staudhammer and M. A. Meyers (eds.), Elsevier Science Publishers, Amsterdam, pp. (). Fundamental Issues and Applications of Shock-Wave and High-Strain-Rate Phenomena, with K. P. Staudhammer. At high strain rates (/s), the thermal component is observed to be expressible in terms of the temperature and the strain rate, whereas the athermal component is independent of these variables.


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Metallurgical Applications of Shock-wave and High-strain Rate Phenomena (Mechanical Engineering (Marcell Dekker)) by Lawrence Eugene Murr Download PDF EPUB FB2

Book Description This book examines the explosive and related technologies in the context of metallurgical and materials processing and fabrication. It is a record of the international exchange of information on the metallurgical and other material effects.

Proceedings of EXPLOMET '95, the fourth in the conference series begun in Shock consolidation continues to be an actively pursued research topic, but industrial applications have eluded it; nonetheless, the pervasive theme of applications of shock wave and related high-strain-rate phenomena in a wide range of materials systems and processes remained a principal feature of the.

This book examines the explosive and related technologies in the context of metallurgical and materials processing and fabrication. It is a record of the international exchange of information on the metallurgical and other material effects of shock-wave and high-strain-rate phenomena.

Read more Read less click to open popover. Metallurgical Applications of Shock-Wave and High-Strain Rate Phenomena book. Read reviews from world’s largest community for readers.5/5(1). Emphasizing metallurgical and materials applications of shock-wave and high-strain-rate phenomena, this superb volume presents the work of the leading international authorities who examine the state of the art of explosive and related technologies in the context of metallurgical and materials processing and fabrication.

Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena Article (PDF Available) January with Reads How we measure 'reads'. Metallurgical Applications of Shock-Wave and High-Strain Rate Phenomena. Author: Murr | Hardcover | Product code: G | ISBN: Description: Emphasizing metallurgical and materials applications of shock-wave and high-strain-rate phenomena, this superb volume presents the work of the leading international authorities who examine the state of the art of explosive and related technologies in the context of metallurgical and materials processing and fabrication.

On the one hand, the framework for a theory explaining the metallurgical effects of shock waves is beginning to take shape; on the other hand, the technological applications of high strain-rate processes have found their way into industries in countries around the world.

Lawrence E. Murr is the author of Metallurgical Applications of Shock-Wave and High-Strain Rate Phenomena ( avg rating, 1 rating, 0 reviews, publishe 5/5(1). A Review of: “METALLURGICAL APPLICATIONS OF SHOCK-WAVE AND HIGH-STRAIN-RATE PHENOMENA” edited by Lawrence E.

Murr, Karl P. Staudhammer and Marc A. Meyers Marcel Dekker Inc., New York pages, hard cover, Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena, with K.

Staudhammer and M. Meyers (eds.), Marcel Dekker, Inc., New York, pp. Information Highways: Mapping Information Delivery Networks in the Pacific Northwest, with J.

Williams and R. Miller, Hypermap, Inc., Portland, 88 pp. These proceedings of EXPLO the International Conference on the Materials Effects of Shock-Wave and High-Strain-Rate Phenomena, held Augustin La Jolla, California, represent a global and up-to-date appraisal of this field.

Contributions (more than ) deal with high-strain-rate deforma. The book presents the papers presented at the 6th international conference on Explosion, Shock Wave and High Strain-Rate Phenomena (ESHP).

He has been organized the ESHP series since launched from Kumamoto as to activate researches in explosion, shock-wave and high-strain-rate phenomena of various materials.

Advanced Applications. Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena, with K.

Staudhammer and M. Meyers (eds.), Marcel Dekker, Inc. The forced shear test specimen, first developed by Meyer et al. [Meyer L. et al., Critical Adiabatic Shear Strength of Low Alloyed Steel Under Compressive Loading, Metallurgical Applications of Shock Wave and High Strain Rate Phenomena (Marcel Decker, ), ; Hartmann K.

et al., Metallurgical Effects on Impact Loaded Materials, Shock Waves and High Strain rate. Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena 作者: Murr, Lawrence E.; Staudhammer, Karl P.; Meyers, Marc Andre 出版年: 页数: 定.

This book contains the proceedings of EXPLOMET™International Conference on Fundamental Issues and Applications of Shock-Wave and High-Strain-Rate Phenomena, held in Albuquerque, New Mexico, ; the fifth in the EXPLOMET™ quinquennial series which began in Albuquerque in Application to Other Types of Metals and Alloys THE EFFECT OF HIGH STRAIN RATE ON MATERIAL PROPERTIES Proc projectile propagation quasi-static range Rates of Strain regime region response shear strain shock loading shock pressure shock wave shown in Fig shows SHPB sintering solid spall specimen stainless steel strain rate strength.

When copper is deformed to high plastic strain (γ ∼ 3∼4) at high strain rates (γ ∼ 10 4 s −1 a microstructure with grain sizes of ∼ μm can be is proposed that this microstructure develops by dynamic recrystallization, which is enabled by the adiabatic temperature rise.

Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena, with K. P. Staudhammer and M. A. Meyers (eds.), Elsevier Science Publishers, Amsterdam, pp.Author: Murr. Publisher: CRC Press ISBN: Category: Technology & Engineering Page: View: DOWNLOAD NOW» Emphasizing metallurgical and materials applications of shock-wave and high-strain-rate phenomena, this superb volume presents the work of the leading international authorities who examine the state of the art of explosive and related technologies in the .Abstract.

Tantalum plate produced by a forging-rolling sequence was subjected to high plastic shear strains(γ = 1 → ) at high strain rates (∼4 × 10 4 s-1) in two experimental configurations: (a) a special hat-shaped geometry and (b) thin disks deformed in a split Hopkinson parallel experiments, the constitutive behavior of the same material was established through quasi-static.