Description
The technological field of defects, and more appropriately, avoidance of them, is very current in perhaps all sectors of the manufacturing industry. This is particularly important to reduce/minimize waste everywhere to address lean production procedures. The recent advances in finite plasticity and visioplasticity, damage modelling, instability theories, fracture modelling, computer numerical techniques and process simulation etc. offer new approaches and tools for defect prediction, analyses and guidelines for designing components to be manufactured by traditional and emerging process technologies.
This volume contains contributions from well known researchers and experts in the field presenting an up-to-date overview of advances in this area. Subjects covered include: micro- and macro-scale observation of defects; localization and instability analysis; damage modelling and fracture criteria; defect prediction methods; design considerations to avoid defects.
Chapter
Chapter 2. James Nasmyth (1808–1890): The Steam Hammer and the Mechanics of Vee-anvil Forging
pp.:
27 – 69
Chapter 3. Modeling Dynamic Strain Localization in Inelastic Solids
pp.:
69 – 85
Chapter 4. Void Growth under Triaxial Stress State and its Influence on Sheet Metal Forming Limits
pp.:
85 – 101
Chapter 5. The Prediction of Necking and Wrinkles in Deep Drawing Processes Using the FEM
pp.:
101 – 117
Chapter 6. Constitutive Models for Microvoid Nucleation, Growth and Coalescence in Elastoplasticity, Finite Element Reference Modelling
pp.:
117 – 133
Chapter 7. Theoretical and Numerical Modelling of Isotropic or Anisotropic Ductile Damage in Metal Forming Processes
pp.:
133 – 151
Chapter 8. Research on Forging Processes for Production α + β Titanium Alloy TC11 Disks
pp.:
151 – 165
Chapter 9. Modelling of Fracture Initiation in Metalforming Processes
pp.:
165 – 181
Chapter 10. Formability Determination for Production Control
pp.:
181 – 197
Chapter 11. Design of Experiments, a Statistical Method to Analyse Sheet Metal Forming Defects Effectively
pp.:
197 – 213
Chapter 12. Formability, Damage and Corrosion Resistance of Coated Steel Sheets
pp.:
213 – 229
Chapter 13. Model of Metal Fracture in Cold Deformation and Ductivity Restoration
pp.:
229 – 245
Chapter 14. Prediction of Necking in 3-D Sheet Metal Forming Processes with Finite Element Simulation
pp.:
245 – 261
Chapter 15. Deformability versus Fracture Limit Diagrams
pp.:
261 – 275
Chapter 16. Prediction of Geometrical Defects in Sheet Metal Forming Processes by Semi-Implicit FEM
pp.:
275 – 293
Chapter 17. Evolution of Structural Anisotropy in Metal Forming Processes
pp.:
293 – 307
Chapter 18. Computer Aided Design of Optimised Forgings
pp.:
307 – 321
Chapter 19. Defects in Thermal Sprayed and Vapour Deposited Thick and Thin Hard-wearing Coatings
pp.:
321 – 343
Chapter 20. A Study of Workability Criteria in Bulk Forming Processes
pp.:
343 – 369
Chapter 21. Degradation of Metal Matrix Composite under Plastic Straining
pp.:
369 – 383
Chapter 22. Crack Prevention and Increase of Workability of Brittle Materials by Cold Extrusion
pp.:
383 – 397
Chapter 23. A Database for some Physical Defects in Metal Forming Processes
pp.:
397 – 411
Chapter 24. Split Ends and Central Burst Defects in Rolling
pp.:
411 – 427
Chapter 25. Form-Filling in Forging and Section-Rolling
pp.:
427 – 446
Materials Processing Defects
( Volume 43 )
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