Description |
xiv, 463 pages : illustrations ; 24 cm |
Series |
Woodhead publishing in materials |
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Woodhead Publishing in materials.
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Contents |
Contents note continued: 10.2.Potential of magnesium sheets -- 10.3.The sheet rolling process and its influence on sheet properties -- 10.4.Alloying effects on sheet properties -- 10.5.Formability of magnesium sheets -- 10.6.Enabling technologies and future trends -- 10.7.Sources of further information -- 10.8.References -- 11.Forging technology for magnesium alloys / J. Knigge -- 11.1.Introduction -- 11.2.Forging technology -- 11.3.Forging of magnesium alloys -- 11.4.Near-net-shape forming of magnesium alloys -- 11.5.Conclusions -- 11.6.Acknowledgements -- 11.7.References -- pt. III Applications of magnesium alloys -- 12.Applications of magnesium alloys in automotive engineering / A. K. Sachdev -- 12.1.Introduction -- 12.2.Materials properties -- 12.3.Alloy development -- 12.4.Manufacturing process development -- 12.5.Automotive applications of magnesium alloys -- 12.6.Future trends -- 12.7.Conclusions -- 12.8.Acknowledgements -- 12.9.References -- |
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Contents note continued: 13.Biomedical applications of magnesium alloys / D. Bormann -- 13.1.Introduction -- 13.2.Functionality of magnesium implants -- 13.3.Cardiovascular implants -- 13.4.Orthopaedic and other implants -- 13.5.Future trends -- 13.6.Sources of further information -- 13.7.Conclusions -- 13.8.References |
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Contents note continued: 3.7.References -- 4.Superplasticity in magnesium alloys by severe plastic deformation / Y. Estrin -- 4.1.Introduction -- 4.2.Microstructure evolution during thermomechanical processing -- 4.3.Superplastic behaviour -- 4.4.Fracture during superplastic deformation -- 4.5.Mechanisms and models -- 4.6.Conclusions -- 4.7.References -- 5.Dynamic recrystallization in magnesium alloys / R. Kaibyshev -- 5.1.Introduction -- 5.2.Dynamic recrystallization (DRX) mechanisms operating in magnesium alloys -- 5.3.Effect of initial structure on DRX -- 5.4.DRX in different magnesium alloys -- 5.5.DRX during severe plastic deformation -- 5.6.Conclusions -- 5.7.Acknowledgements -- 5.8.References -- pt. II Processing of magnesium alloys -- 6.Direct chill casting of magnesium extrusion billet and rolling slab / J. F. Grandfield -- 6.1.Introduction -- 6.2.Heat and fluid flow -- 6.3.Magnesium direct chill (DC) casting technology and engineering -- |
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Contents note continued: 6.4.Solidified structures and defect formation -- 6.5.Conclusions -- 6.6.References -- 7.Twin roll casting of magnesium / M. A. Wells -- 7.1.Introduction -- 7.2.Industrial perspective -- 7.3.Twin roll casting (TRC) process -- 7.4.Solidification and strip microstructure -- 7.5.Thermodynamic calculations -- 7.6.Process modeling and simulation -- 7.7.Conclusions -- 7.8.References -- 8.Enhancing the extrudability of wrought magnesium alloys / A. G. Beer -- 8.1.Introduction -- 8.2.Extrudability of magnesium alloys -- 8.3.Microstructural development during extrusion -- 8.4.Recent extrusion alloy development -- 8.5.Conclusions -- 8.6.References -- 9.Hydrostatic extrusion of magnesium alloys / J. Bohlen -- 9.1.Introduction -- 9.2.Process basics -- 9.3.Research and development issues -- 9.4.Future trends -- 9.5.Sources of further information -- 9.6.Conclusions -- 9.7.References -- 10.Rolling of magnesium alloys / D. Letzig -- 10.1.Introduction -- |
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Machine generated contents note: pt. I Types and properties of magnesium alloys -- 1.Current developments in wrought magnesium alloys / M. O. Pekguleryuz -- 1.1.Introduction: overview of wrought magnesium alloy development -- 1.2.Current developments in magnesium wrought alloys -- 1.3.Progress in wrought magnesium alloys -- 1.4.Future trends in wrought magnesium alloy development -- 1.5.References -- 2.Deformation mechanisms of magnesium alloys / S. R. Agnew -- 2.1.Introduction -- 2.2.Basal slip -- 2.3.Non-basal slip of <a> type dislocations -- 2.4.Non-basal slip of <c+a> type dislocations -- 2.5.Deformation twinning -- 2.6.Dynamic deformation -- 2.7.Conclusions -- 2.8.Acknowledgements -- 2.9.References -- 3.Twinning and its role in wrought magnesium alloys / M. R. Barnett -- 3.1.Introduction -- 3.2.Fundamentals of twinning -- 3.3.The impact of twinning on mechanical response -- 3.4.The impact of structure and processing on twinning -- 3.5.Conclusion -- 3.6.Acknowledgements -- |
Summary |
Wrought magnesium alloys are alloys that have been mechanically worked after casting. Wrought alloys possess higher strength and ductility than cast alloys and allow the use of magnesium alloys in a wider range of applications. Bettles, Monash Uni; Barnett, Deakin Uni |
Analysis |
Australian |
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Metallurgy (Australia) |
Bibliography |
Includes bibliographical references and index |
Subject |
Magnesium alloys.
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Magnesium -- Metallurgy.
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Magnesium.
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Author |
Barnett, Matthew.
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Bettles, Colleen
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LC no. |
2012931834 |
ISBN |
1845699688 (hbk) |
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9781845699680 (hbk) |
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