Handbook of Aluminum: Volume 2: Alloy Production and Materials ManufacturingGeorge E. Totten, D. Scott MacKenzie CRC Press, 25 квіт. 2003 р. - 736 стор. This reference provides thorough and in-depth coverage of the latest production and processing technologies encountered in the aluminum alloy industry, discussing current analytical methods for aluminum alloy characterization as well as extractive metallurgy, smelting, master alloy formation, and recycling. The Handbook of Aluminum: Volume 2 examin |
Зміст
1 | |
Smelting of Aluminum | 47 |
Creation of Master Alloys for Aluminum | 81 |
Recycling of Aluminum | 115 |
Analytical Techniques for Aluminum | 155 |
Work Hardening Recovery Recrystallization and Grain Growth | 193 |
Modeling of Microstructural Evolution During Processing of Aluminum Alloys | 221 |
TextureProperty Relationships in Aluminum Alloys Simulations and Experiments | 277 |
Surface Chemistry of Adhesion to Aluminum | 465 |
Surface Modification | 483 |
Aluminum Nitriding | 565 |
Friction Stir Welding of Aluminum Alloys | 579 |
Aluminum Intermetallics | 603 |
AluminumBased Metal Matrix Composites | 631 |
Environmental and Toxicological Effects | 671 |
Appendixes | 701 |
Property Prediction | 319 |
Mechanical Properties | 343 |
Corrosion of Aluminum and Its Alloys | 421 |
719 | |
Інші видання - Показати все
Handbook of Aluminum: Volume 2: Alloy Production and Materials Manufacturing George E. Totten,D. Scott MacKenzie Обмежений попередній перегляд - 2003 |
Handbook of Aluminum: Volume 2: Alloy Production and Materials Manufacturing George E. Totten,D. Scott MacKenzie Обмежений попередній перегляд - 2003 |
Handbook of Aluminum: Volume 2: Alloy Production and Materials Manufacturing George E. Totten,D. Scott MacKenzie Попередній перегляд недоступний - 2003 |
Загальні терміни та фрази
acid addition adhesion aluminum alloys anode application bath behavior carbon cell chemical coating components composition compounds concentration containing copper corrosion crack crystal decrease deformation density depends deposit determined developed direction dislocation distribution effect electrical electrolyte Electron elements energy example fatigue Figure formation fraction fracture function grain boundary growth hardening hardness heat higher important improve increase initial International layer load lower master alloys material matrix measured mechanical melting metal methods microstructure molten nucleation observed obtained occurs operation orientation oxide particles phase plastic plating precipitates predict present production properties reaction recrystallization reduction resistance rolling salt sample sheet shown shows simulations slip solution specimen stir strain strength stress structure studied surface Table technique temperature tensile texture thickness treatment typically volume weld yield