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Modelling of Powder Die Compaction

  • Book
  • © 2008

Overview

Editors:
  1. P. R. Brewin

    1. European Powder Metallurgy Association (EPMA), Shrewsbury, UK

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  2. O. Coube

    1. European Powder Metallurgy Association (EPMA), Shrewsbury, UK

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  3. P. Doremus

    1. Laboratoire GPM2, ENSPG, Saint Martin d’Heres, France

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  4. J. H. Tweed

    1. AEA Technology, Harwell, Didcot Oxfordshire, UK

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  • Having all worked together as part of a European networking project aimed at improving powder die compaction, the editors have produced an integrated approach to the subject matter
  • Focuses on the modelling of powder die compaction for a broad range of sectors
  • Summary of the most recent European research into modelling of powder die compaction
  • Presents a number of case studies that have been developed to test compaction models
  • Includes supplementary material: sn.pub/extras

Part of the book series: Engineering Materials and Processes (EMP)

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-xxi
    Download chapter PDF

  2. Introduction

    • P. Brewin, O. Coube, P. Doremus, J. H. Tweed
    Pages 1-5

  3. Modelling and Part Manufacture

    • P. Brewin, O. Coube, J. A. Calero, H. Hodgson, R. Maassen, M. Satur
    Pages 7-29

  4. Mechanics of Powder Compaction

    • A. C. F. Cocks
    Pages 31-42

  5. Compaction Models

    • A. C. F. Cocks, D. T. Gethin, H. -Ă…. Häggblad, T. Kraft, O. Coube
    Pages 43-64

  6. Model Input Data — Elastic Properties

    • M. D. Riera, J. M. Prado, P. Doremus
    Pages 65-76

  7. Model Input Data — Plastic Properties

    • P. Doremus
    Pages 77-93

  8. Model Input Data — Failure

    • P. Doremus
    Pages 95-103

  9. Friction and its Measurement in Powder-Compaction Processes

    • D. T. Gethin, N. Solimanjad, P. Doremus, D. Korachkin
    Pages 105-129

  10. Die Fill and Powder Transfer

    • S. F. Burch, A. C. F. Cocks, J. M. Prado, J. H. Tweed
    Pages 131-150

  11. Calibration of Compaction Models

    • P. Doremus
    Pages 151-163

  12. Production of Case-study Components

    • T. Kranz, W. Markeli, J. H. Tweed
    Pages 165-178

  13. Assessing Powder Compacts

    • S. F. Burch, J. A. Calero, M. Eriksson, B. Hoffman, A. Leuprecht, R. Maassen et al.
    Pages 179-195

  14. Case Studies: Discussion and Guidelines

    • O. Coube, P. JonsĂ©n
    Pages 197-222

  15. Modelling Die Compaction in the Pharmaceutical Industry

    • I. C. Sinka, A. C. F. Cocks
    Pages 223-242

  16. Applications in Industry

    • P. Brewin, O. Coube, D. T. Gethin, H. Hodgson, S. Rolland
    Pages 243-258

  17. Back Matter

    Pages 259-329
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Keywords

About this book

Manufacture of components from powders often requires a compaction step; as in powder metallurgy, ceramic, hardmetal, magnet, pharmaceutical, refractory and other sectors to make anything from complex gears for cars to pills to dishwasher tablets. Development of the tooling to manufacture a component can be a long process with several iterations. A complementary approach is to use a model of the compaction process to predict the way that powder behaves during compaction and thus the loads needed to achieve compaction and quality of the compacted part.

Modelling of the process of die compaction has been the subject of recent collaborative research from leading experts in Europe and this book presents a summary of the state of the art, taking examples from recent world-class research. Case studies are presented, providing a reference for the testing and validation of these compaction models.

The reader will learn about the: Industry requirements for models of die compaction; Techniques to generate the material data required for input to these models; Production and assessment of compacts for comparison with model predictions; Range of compaction models and results from exercises comparing these models with real powder compacts; The range of potential uses of these models in industry.

Editors and Affiliations

  • European Powder Metallurgy Association (EPMA), Shrewsbury, UK

    P. R. Brewin, O. Coube

  • Laboratoire GPM2, ENSPG, Saint Martin d’Heres, France

    P. Doremus

  • AEA Technology, Harwell, Didcot Oxfordshire, UK

    J. H. Tweed

About the editors

The editors have worked together as part of a European networking project aimed at improving powder die compaction using compaction simulation. Peter Brewin co-ordinated the network; while Olivier Coube, Pierre Doremus and James Tweed led the activities of: simulation of powder compaction; generation of input data for powder compaction models; and the generation of case studies and data to test compaction models.

Peter Brewin is technical coordinator of Dienet Thematic Network and technical director of the European Powder Metallurgy Association (EPMA). His background is in alloy steel manufacturing including liquid phase sintering.

Olivier Coube is a R&D mechanical engineer (Ph.D.) with over 10 years of experience in the field of the powder forming process (pressing, sintering and sizing) utilizing mathematical modeling and numerical simulation to solve product development issues. From 1998 to 2004, he led numerous applied research projects for industrial and government contractors at the Fraunhofer-Institute for Mechanics of Materials. Since July 2004 he has been working at Plansee AG as an expert in Numerical Simulation.

Pierre Doremus has worked in Laboratory 3S of the National Polytechnic Institute of Grenoble for 25 years. His research activities are essentially devoted to powder compaction. He has been the supervisor of several Ph.D. students which provided him with the idea of developing academic experimental installations for studying powder densification. This work has always been in relation to the industry or national and European programs. This has led to many publications in scientific journals and conferences.

James Tweed has worked for AEA Technology on a broad range of topics related to the manufacture and performance of materials. Recently he has led work with the Universities of Leicester and Swansea on developing test methods relevant to the manufacture of components by die compaction. This includes assessment of powders and the way they flow and fill dies, as well as their behavior during compaction and ejection. This work has also identified methods for assessing the density distribution in powder compacts.

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