Description |
1 CD-ROM (PDF file (iv, 113 pages, illustrations)) ; 12 cm |
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4 3/4 in |
Summary |
A constitutive model based on Non-Associated Flow rule is implemented numerically and is shown to be capable of accurate predictions of anisotropy driven phenomena, observed during the forming processes of thin sheet metals, in a more efficient manner than other traditional approaches based on Associated Flow Rule |
Notes |
Submitted to the School of Engineering in the Faculty of Science, Engineering and Built Environment, Deakin University |
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Thesis (Ph.D.) -- Deakin University, Victoria, 2015 |
Bibliography |
Bibliography: pages 103-113 |
Subject |
Sheet-metal work -- Simulation methods.
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Metals -- Mechanical properties.
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Metals -- Formability -- Simulation methods.
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Genre/Form |
Academic theses.
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Author |
Deakin University. Faculty of Science, Engineering and Built Environment
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Deakin University. School of Engineering, degree granting institution
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