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Thermoplastic Processing of Structural Metallic Materials

Experiments, Theory, and Modeling

  • Book
  • Nov 2024

Overview

  • Demonstrates advanced thermoplastic deformation techniques for enhancing alloy properties
  • Offers novel insights into optimizing hot deformation modes for dual-phase alloys
  • Provides comprehensive models for understanding metal flow stress during hot deformation processes

Part of the book series: SpringerBriefs in Materials (BRIEFSMATERIALS)

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About this book

This book discusses the scientific framework of thermoplastic deformation of structural metallic materials, in particular dual-phase steels and intermetallic alloys, emphasizing the attainment of desired alloy structures and properties through enhanced production techniques. By strategically manipulating the stress-strain state, a more uniform deformation is achieved, thereby fostering structural and property homogeneity. A novel experimental-theoretical approach is presented for correlating the stress-strain state with grain size and metal flow stress. Through extensive experimentation, flow curve dependencies and deformation resistance under varying temperature-velocity conditions are meticulously examined, facilitating their integration into specialized software platforms. Analytical formulations derived from experimental data enable the calculation of deformation resistance for special alloys and the establishment of optimal thermoplastic processing parameters. Aimed at scientific and technical professionals, as well as experts in metallurgy and materials science, this book offers invaluable insights into the advancement of alloy processing methodologies.

Keywords

  • Thermochemical Pressing
  • Dual-Phase Steels
  • Dual-Phase Alloy Processing
  • Hot Deformation Optimization
  • Metal Flow Stress Determination
  • Intermetallic Alloy Hardening
  • Theoretical Flow Stress Models
  • Stress-Strain Influence
  • Yield Stress Approximation
  • High-Performance Intermetallic Alloys
  • Intermetallic Alloy Modeling
  • Hot Rolling Effects

Authors and Affiliations

  • Head of the educational-scientific-production center "Metalspetsproekt", Zaporizhzhya National University, Zaporizhzhia, Ukraine

    Serhii Sheyko

  • Department of Metallurgical Technologies, Ecology and Technogenic Safety, Zaporizhzhia National University, Zaporizhzhia, Ukraine

    Yurii Belokon

  • Department of Metallurgical Equipment, Zaporizhzhia National University, Zaporizhzhia, Ukraine

    Oleksii Hrechanyi, Tetyana Vasilchenko

About the authors

Serhii Sheyko, a Candidate of Technical Sciences and Associate Professor, serves as the Head of the educational and scientific laboratory focusing on the latest technologies at "Metalspetsprojekt," Zaporizhzhia National University. With expertise in material science and metal processing, he specializes in the development of progressive technology for thermoplastic processing of special alloys. Sheyko has contributed significantly to the field with 121 scientific publications, including articles, reports, textbooks, and monographs, and holds 7 patents in Ukraine.

Yurii Belokon, a Doctor of Engineering Sciences and Professor, leads the Department of Metallurgical Technologies, Ecology, and Technogenic Safety at Zaporizhzhia National University. With extensive experience in material science and metal processing, Belokon focuses on developing intermetallic alloys for gas turbine engine and aviation-space engineering components. He has published 161 scientific works, comprising articles, reports, textbooks, and monographs, and holds 13 patents in Ukraine. Belokon has received several prestigious awards, including the Scholarship of the Cabinet of Ministers of Ukraine for Young Scientists (2016-2017) and the Award of the President of Ukraine for young scientists for his work on "Innovative technologies of self-propagating high-temperature synthesis" (2022).

Oleksii Hrechanyi, Ph.D. and Associate Professor at the Department of Metallurgical Equipment at Zaporizhzhia National University. Specializing in metallurgical equipment, Hrechanyi focuses on ensuring the reliability of mechanical systems' elements in cases of complex damage. He has published 62 scientific works, including articles, reports, textbooks, and monographs, and holds 6 patents in Ukraine.

Tetiana VasÑ–lchenko, a Candidate of Technical Sciences and Associate Professor at the Department of Metallurgical Equipment at Zaporizhzhia National University, specializes in metallurgical equipment and metal processing. Her research interests include the production of intermetallic alloys under the conditions of thermochemical pressing. VasÑ–lchenko has published 67 scientific works, comprising articles, reports, textbooks, and monographs, and holds 6 patents in Ukraine.

Bibliographic Information

  • Book Title: Thermoplastic Processing of Structural Metallic Materials

  • Book Subtitle: Experiments, Theory, and Modeling

  • Authors: Serhii Sheyko, Yurii Belokon, Oleksii Hrechanyi, Tetyana Vasilchenko

  • Series Title: SpringerBriefs in Materials

  • Publisher: Springer Cham

  • eBook Packages: Chemistry and Materials Science, Chemistry and Material Science (R0)

  • Copyright Information: The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2024

  • Softcover ISBN: 978-3-031-73895-1Due: 30 November 2024

  • eBook ISBN: 978-3-031-73896-8Due: 30 November 2024

  • Series ISSN: 2192-1091

  • Series E-ISSN: 2192-1105

  • Edition Number: 1

  • Number of Pages: X, 112

  • Number of Illustrations: 23 b/w illustrations, 62 illustrations in colour

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