Welding and Joining of Advanced High-Strength Steels and Non-ferrous Alloys : Processes, Microstructure, and Mechanical Properties

Sisodia, Raghawendra Pratap Singh (EDT)/ Koncsik, Zsuzsanna (EDT)/ Węglowski, Marek (EDT)

Elsevier - Health Sciences Division（2026/05発売）

• 製本 Paperback:紙装版/ペーパーバック版／ページ数 495 p.
• 言語 ENG
• 商品コード 9780443290503

Full Description

Welding and Joining of Advanced High-Strength Steels and Non-ferrous Alloys: Processes, Microstructure, and Mechanical Properties provides an overview of various welding processes for high strength steels and nonferrous alloys, solutions to commonly encountered problems when welding these materials, as well as the impact welding has on the microstructure and mechanical properties of these welded metals and joints. Real-world insight developed during welding experiments, post-weld heat treatments, and physical and numerical simulations is included, as are production processes for high strength steels and nonferrous alloys, taking into account applications, fatigue property improvement, and higher strength and thicknesses. Other topics covered include the design of filler materials suitable for weldability of high-strength steels, electron beam welding of AHSSs, fatigue crack propagation, fracture mechanical analysis in heat affected zones, twin-spot laser welding of multiphase steels, resistance spot welding, very high cycle fatigue failure, laser welding of aluminum and titanium alloys, weldability of copper and copper alloys, and more. Case studies and applications are included throughout.

Contents

1. Introduction to high strength and green steel: A sustainable innovation towards green environment
2. Overview of Future Trends of Welding and Joining Technologies Used for Joining of Advanced High Strength Steel
3. Weldability of High Strength Steel (physical and technological tests)
4. Design of Filler Materials Suitable for Weldability of Advanced High Strength Steel
5. Electron Beam Welding of Advanced High Strength Structural Steels (AHSSs)
6. Fatigue Crack Propagation Characteristics and Design Curves for High-Strength Steels and their Welded Joints
7. Fracture Mechanical Analyses of Physically (or Gleeble) Simulated Heat Affected Zones
8. Welding Structures with Advanced High Strength Steels (AHSSs) and Light Alloys to Maximize their Benefits
9. Conventional and Twin-Spot Laser Welding of Multiphase Steels
10. Resistance Spot Welding of Advanced High Strength Steels
11. Electron Beam Welding Behavior of Medium Carbon Low Alloy Forged Steels
12. Numerical Analysis of Heat Transfer Modeling of Laser Beam Welding of High Strength Steel
13. Quality Management and Optimization of Electron Beam Welding: Methodologies, Digitalization, and Energy Efficiency
14. Very High Cycle Fatigue Failure Micromechanics of High/Ultra-High Strength Materials
15. Introduction to Nonferrous Alloys and Their Weldability
16. Laser Welding of Titanium Alloys
17. Laser Welding of Aluminum Alloys
18. Weldability of Copper and Copper Alloys
19. Overview of Recent Advancements in the Soldering Process in Europe
20. Grey Wolf Optimizer in network and 5G