Explosive Welding Processes and Structures
Auteurs : Greenberg B.A., Ivanov M. A., Kuzmin S. V., Lysak V. I.
This reference explores explosion welding, a high intensity, transient impact that achieves metal compounds not obtainable otherwise. Electron microscopy images cover the structure of numerous welded joints including titanium?orthorhombic titanium aluminide, copper?tantalum, aluminum?tantalum, iron?silver, steel?steel, and copper?titanium. These weldable pairs have different solubility than their initial elements. The authors present various processes and structures including granulating fragmentation, cusps, splashes, and quasi-wave interface. Specific risk zones for chemical and petrochemical (coke chamber) reactors are probed and suggestions offered.
Key Features:
- Offers new theories about explosion welding processes and structures
- Investigates dozens of weldable pairs with differing solubility from initial elements
- Studies both hetero- and homogeneous pairs
- Explores welded joints with flat, wavy and quasi-wavy separation boundaries
- Observes irregularities of the separation surface relief observing asperities and splashes and their transformation under intensified welding modes
- Unveils a new type of fragmentation under explosion welding
Explosive Welding: Processes and Structures is a valuable resource for a wide range of experts involved in explosion welding, engineers, as well as graduate and postgraduate students.
B.A.Greenberg, Prof. and Department Supervisor at the Russian Academy of Sciences, Russia M.A.Ivanov, Professor and Department Head at G. V. Kurdyumov, National Academy of Sciences of Ukraine S.V.Kuzmin,, Research Scientists at Volgograd State Technical University, Russia V.I.Lysak., Research Scientist at Volgograd State Technical University, Russia
Date de parution : 12-2021
15.6x23.4 cm
Date de parution : 08-2019
15.6x23.4 cm
Thèmes d’Explosive Welding :
Mots-clés :
Welded Joints; Explosive Welding; EBSD Method; Weldable Pairs; Copper M1; flat; BCC Phase; wavy and quasi-wavy separation boundaries; Heat Treatment Mode; separation surface relief; Strong Welded Joints; intensified welding; Average Carbon Concentration; explosion welding; Welded Joint Formation; quasi-wave interface; CRISM; multilayer composites; SEM Image; granulating fragmentation; Steel 08Kh13; self-organization processes; Isolated Cusps; Welding Regime; Intermetallic Reactions; Multi-layer Composite; Fractal Dimension; Welding Mode; Wavy Boundary; Wavy Interface; TEM Image; Ti Phase; Tantalum Surface