Screen LibraryOxide scale behavior in high temperature metal processing
The result of a fruitful, on-going collaboration between academia and industry, this book reviews recent advances in research on oxide scale behavior in high-temperature forming processes. Presenting novel, previously neglected approaches, the authors emphasize the pivotal role of reproducible exper...
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| Group Author: | ; |
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| Literature type: | Electronic eBook |
| Language: | English |
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| Online Access: |
http://onlinelibrary.wiley.com/book/10.1002/9783527630318 |
| Summary: |
The result of a fruitful, on-going collaboration between academia and industry, this book reviews recent advances in research on oxide scale behavior in high-temperature forming processes. Presenting novel, previously neglected approaches, the authors emphasize the pivotal role of reproducible experiments to elucidate the oxide scale properties and develop quantitative models with predictive accuracy. Each chapter consists of a detailed, systematic examination of different aspects of oxide scale formation with immediate impact for researchers and developers in industry. The clear and stringe |
| Carrier Form: | 1 online resource. |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9783527630318 3527630317 9783527630325 (electronic bk.) 3527630325 (electronic bk.) 3527325182 9783527325184 1282688669 9781282688667 |
| Index Number: | TN672 |
| CLC: | TG166 |
| Contents: | A pivotal role of secondary oxide scale during hot rolling and for subsequent product quality -- Scale growth and formation of subsurface layers -- Methodology applied for numerical characterization of oxide scale in thermomechanical processing -- Making measurements of oxide scale behavior under hot working conditions -- Numerical interpretation of test results: a way toward determining the most critical parameters of oxide scale behavior -- Physically based finite element model of the oxide scale: assumptions, numerical techniques, examples of prediction -- Understanding and predicting mic |