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Electrically Assisted Forming [electronic resource] : Modeling and Control / by Wesley A. Salandro, Joshua J. Jones, Cristina Bunget, Laine Mears, John T. Roth.

By: Salandro, Wesley A [author.].
Contributor(s): Jones, Joshua J [author.] | Bunget, Cristina [author.] | Mears, Laine [author.] | Roth, John T [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Springer Series in Advanced Manufacturing: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XIX, 355 p. 337 illus. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319088792.Subject(s): Engineering | Manufacturing industries | Machines | Tools | Industrial engineering | Engineering | Manufacturing, Machines, Tools | Operating Procedures, Materials TreatmentAdditional physical formats: Printed edition:: No titleDDC classification: 670 Online resources: Click here to access online
Contents:
Introduction to Electrically-Assisted Forming -- Bulk Modeling Methodology for Electrically-Assisted Manufacturing -- The Electroplastic Effect -- Comprehensive EAF Modeling -- Experimental Findings for EAF -- Contact Effects of EAF -- Microstructural Effects on EAF -- Phase distribution Effects on EAF -- Analysis of EAF Modeling Sensitivity and Robustness -- Broader Impacts of EAF -- Tooling design considerations -- Additional Applications of Electrically-Assisted Manufacturing (EAM) -- Control design for Electrically-Assisted Forming -- Cost and Energy Analysis.
In: Springer eBooksSummary: Maximizing reader insights into the latest research findings and applications of Electrically-Assisted Forming (EAF) - whereby metals are formed under an electric current field - this book explains how such a process produces immediate improved formability of metals beyond the extent of thermal softening, and allows metals to be formed to greater elongation with lower mechanical energy as well as allowing for lightweight brittle metals such as magnesium and titanium to be formed without external heating or annealing, enabling the more effective use of these lightweight metals in design. Including case studies that illustrate and support the theoretical content and real-world applications of the techniques discussed, this book also serves to enrich readers understanding of the underlying theories that influence electro-plastic behaviour. The authors have extensive experience in studying Electrically-Assisted Forming and have written extensively on the topic with publications including experimental works, technical briefs, conference proceedings, journal articles, and analytical models.
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Introduction to Electrically-Assisted Forming -- Bulk Modeling Methodology for Electrically-Assisted Manufacturing -- The Electroplastic Effect -- Comprehensive EAF Modeling -- Experimental Findings for EAF -- Contact Effects of EAF -- Microstructural Effects on EAF -- Phase distribution Effects on EAF -- Analysis of EAF Modeling Sensitivity and Robustness -- Broader Impacts of EAF -- Tooling design considerations -- Additional Applications of Electrically-Assisted Manufacturing (EAM) -- Control design for Electrically-Assisted Forming -- Cost and Energy Analysis.

Maximizing reader insights into the latest research findings and applications of Electrically-Assisted Forming (EAF) - whereby metals are formed under an electric current field - this book explains how such a process produces immediate improved formability of metals beyond the extent of thermal softening, and allows metals to be formed to greater elongation with lower mechanical energy as well as allowing for lightweight brittle metals such as magnesium and titanium to be formed without external heating or annealing, enabling the more effective use of these lightweight metals in design. Including case studies that illustrate and support the theoretical content and real-world applications of the techniques discussed, this book also serves to enrich readers understanding of the underlying theories that influence electro-plastic behaviour. The authors have extensive experience in studying Electrically-Assisted Forming and have written extensively on the topic with publications including experimental works, technical briefs, conference proceedings, journal articles, and analytical models.

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