Metal forming analysis / R.H. Wagoner, J.-L. Chenot.
Wagoner, R. H. (Robert H.)| Call Number | 671 |
| Author | Wagoner, R. H. author. |
| Title | Metal forming analysis / R.H. Wagoner, J.-L. Chenot. |
| Physical Description | 1 online resource (xiii, 376 pages) : digital, PDF file(s). |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Mathematical background -- Introduction to the finite-element method -- Finite elements for large deformation -- Typical finite elements -- Classification of finite-element formulations -- Auxiliary equations : contact, friction, and incompressibility -- Thermomechanical principles -- Sheet-metal formability tests -- Steady-state forming problems -- Forging analysis -- Sheet-forming analysis -- Recent research topics. |
| Summary | The introduction of numerical methods, particularly finite element (FE) analysis, represents a significant advance in metal forming operations. Numerical methods are used increasingly to optimize product design and deal with problems in metal forging, rolling, and extrusion processes. Metal Forming Analysis, first published in 2001, describes the most important numerical techniques for simulating metal forming operations. The first part of the book describes principles and procedures and includes numerous examples and worked problems. The remaining chapters focus on applications of numerical analysis to specific forming operations. Most of these results are drawn from the authors' research in the areas of metal testing, sheet metal forming, forging, extrusion, and similar operations. Sufficient information is presented so that readers can understand the nonlinear finite element method as applied to forming problems without a prior background in structural finite element analysis. Graduate students, researchers, and practising engineers will welcome this thorough reference to state-of-the-art numerical methods used in metal forming analysis. |
| Added Author | Chenot, J. L., author. |
| Subject | Metal-work Mathematical models. FINITE ELEMENT METHOD. NUMERICAL ANALYSIS. |
| Multimedia |
Total Ratings:
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$a Mathematical background -- Introduction to the finite-element method -- Finite elements for large deformation -- Typical finite elements -- Classification of finite-element formulations -- Auxiliary equations : contact, friction, and incompressibility -- Thermomechanical principles -- Sheet-metal formability tests -- Steady-state forming problems -- Forging analysis -- Sheet-forming analysis -- Recent research topics.
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$a The introduction of numerical methods, particularly finite element (FE) analysis, represents a significant advance in metal forming operations. Numerical methods are used increasingly to optimize product design and deal with problems in metal forging, rolling, and extrusion processes. Metal Forming Analysis, first published in 2001, describes the most important numerical techniques for simulating metal forming operations. The first part of the book describes principles and procedures and includes numerous examples and worked problems. The remaining chapters focus on applications of numerical analysis to specific forming operations. Most of these results are drawn from the authors' research in the areas of metal testing, sheet metal forming, forging, extrusion, and similar operations. Sufficient information is presented so that readers can understand the nonlinear finite element method as applied to forming problems without a prior background in structural finite element analysis. Graduate students, researchers, and practising engineers will welcome this thorough reference to state-of-the-art numerical methods used in metal forming analysis.
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$a FINITE ELEMENT METHOD.
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| Summary | The introduction of numerical methods, particularly finite element (FE) analysis, represents a significant advance in metal forming operations. Numerical methods are used increasingly to optimize product design and deal with problems in metal forging, rolling, and extrusion processes. Metal Forming Analysis, first published in 2001, describes the most important numerical techniques for simulating metal forming operations. The first part of the book describes principles and procedures and includes numerous examples and worked problems. The remaining chapters focus on applications of numerical analysis to specific forming operations. Most of these results are drawn from the authors' research in the areas of metal testing, sheet metal forming, forging, extrusion, and similar operations. Sufficient information is presented so that readers can understand the nonlinear finite element method as applied to forming problems without a prior background in structural finite element analysis. Graduate students, researchers, and practising engineers will welcome this thorough reference to state-of-the-art numerical methods used in metal forming analysis. |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Mathematical background -- Introduction to the finite-element method -- Finite elements for large deformation -- Typical finite elements -- Classification of finite-element formulations -- Auxiliary equations : contact, friction, and incompressibility -- Thermomechanical principles -- Sheet-metal formability tests -- Steady-state forming problems -- Forging analysis -- Sheet-forming analysis -- Recent research topics. |
| Subject | Metal-work Mathematical models. FINITE ELEMENT METHOD. NUMERICAL ANALYSIS. |
| Multimedia |