Integral Materials Modeling: Towards Physics-Based Through-Process Models

Integral Materials Modeling: Towards Physics-Based Through-Process Models

Editor(s): Günter Gottstein

Published Online: 26 APR 2007

Print ISBN: 9783527317110

Online ISBN: 9783527610983

DOI: 10.1002/9783527610983

About this Book

Adopting a holistic approach to materials simulation, this monograph covers four very important structural materials: aluminum, carbon steels, superalloys, and plastics. Following an introduction to the concept of integral modeling, the book goes on to cover a wide range of production steps and usage, including melt flow and solidification behavior, coating, shaping, thermal treatment, deep drawing, hardness and ductility, damage initiation, and deformation behavior.

Table of contents

    1. You have free access to this content
    2. Chapter 3

      Aluminum Through-Process Modeling: From Casting to Cup Drawing (TP C6) (pages 17–32)

      L. Neumann, R. Kopp, G. Hirt, E. Jannot, G. Gottstein, B. Hallstedt, J. M. Schneider, B. Pustal and A. Bührig-Polaczek

    3. Chapter 4

      From Casting to Product Properties: Modeling the Process Chain of Steels (TP C7) (pages 33–47)

      U. Prahl, W. Bleck, A.-P. Hollands, D. Senk, X. Li, G. Hirt, R. Kopp, V. Pavlyk and U. Dilthey

    4. Chapter 5

      Status of Through-Process Simulation for Coated Gas Turbine Components (TP C8) (pages 49–61)

      R. Herzog, N. Warnken, I. Steinbach, B. Hallstedt, C. Walter, J. Müller, D. Hajas, E. Münstermann, J. M. Schneider, R. Nickel, D. Parkot, K. Bobzin, E. Lugscheider, P. Bednarz, O. Trunova and L. Singheiser

    5. Chapter 6

      Deformation Behavior of a Plastic Pipe Fitting (TP C9) (pages 63–73)

      W. Michaeli, E. Schmachtenberg, M. Brinkmann, M. Bussmann and B. Renner

    6. Chapter 7

      Modeling of Flow Processes During Solidification (TP A1) (pages 75–86)

      M. Bussmann, B. Renner, W. Michaeli, B. Pustal, A. Bührig-Polaczek, V. Pavlyk, O. Mokrov and U. Dilthey

    7. Chapter 8

      Microstructure Modeling During Solidification of Castings (TP A2) (pages 87–101)

      B. Pustal, A. Bührig-Polaczek, N. Warnken, I. Steinbach, M. Bussmann, B. Renner, W. Michaeli, A.-P. Hollands, D. Senk, C. Walter, B. Hallstedt and J. M. Schneider

    8. Chapter 9

      Coating of Turbine Blades (TP A3) (pages 103–124)

      B. Hallstedt, J. Müller, D. Hajas, E. Münstermann, J. M. Schneider, R. Nickel, D. Parkot, K. Bobzin and E. Lugscheider

    9. Chapter 10

      Hot and Cold Rolling of Aluminum Sheet (TP B1) (pages 125–137)

      L. Neumann, R. Kopp, G. Hirt, M. Crumbach, C. Schäfer, V. Mohles and G. Gottstein

    10. Chapter 12

      Simulation of Phase Changes During Thermal Treatments of Various Metal Alloys (TP B2) (pages 149–160)

      M. Schneider, E. Jannot, V. Mohles, G. Gottstein, C. Walter, B. Hallstedt, J. M. Schneider, N. Warnken, I. Steinbach, F. Gerdemann, U. Prahl and W. Bleck

    11. Chapter 13

      Deep Drawing Properties of Aluminum Sheet (TP C6) (pages 161–167)

      L. Neumann, R. Kopp, G. Hirt, M. Crumbach and G. Gottstein

    12. Chapter 18

      Prediction of Microstructure and Microporosity Development in Aluminum Gravity Casting Processes (pages 219–231)

      M. Schneider, W. Schaefer, G. Mazourkevitch, M. Wessén, I. L. Svensson, S. Seifeddine, J. Olsson, C. Beckermann and K. Carlson

    13. You have free access to this content
    14. You have free access to this content

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