Engineering Research
Materials Science
Engineering Series
Books by Keyword: Bonding
Books
Conventional and non-conventional welding technologies, microstructure and mechanical properties of welded connections, technologies of dissimilar joints, bonding and soldering processes, electrochemical processes in fuel cells and biobased corrosion inhibitors are the topics of this volume. Collected articles will be interesting for engineers and researchers in machinery and electrochemical engineering.
The 99 papers are grouped as follows:
Chapter 1: Keynote Lecture
Chapter 2: Mechanism of Superplasticity
Chapter 3: Superplastic Materials
Chapter 4: Microstructure Refinement
Chapter 5: Industrial Application
The 159 papers are grouped as follows:
1. COATINGS AND SURFACES,
2. EXTRUSION AND DRAWING,
3. FORGING,
4. FORMABILITY,
5. INCREMENTAL FORMING,
6. JOINING AND BONDING,
7. MAGNESIUM FORMING,
8. NUMERICAL MODELLING,
9. TUBE AND HYDRO FORMING,
10. OPTIMISATION,
11. OTHER PROCESSES,
12. POWDER AND ADVANCED MATERIALS,
13. ROLLING,
14. SHEARING,
15. SHEET METAL FORMING,
16. TITANIUM FORMING
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 46 papers are grouped as follows:
Chapter 1: Reinforced Materials, Structural Materials and Engineering;
Chapter 2: Concrete and Cement, Mortars;
Chapter 3: Materials Processing Technology;
Chapter 4: Energy, Electric and Optics Materials;
Chapter 5: Nanomaterials and Nanotechnologies;
Chapter 6: Bio- and Environment Materials;
Chapter 7: Thin Films;
Chapter 8: Polymers, Alloys and Other Materials Technologies.
This work presents the results of the initial stage of research of some sub-projects of the Collaborative Research Centre SFB 675, “Creation of High-Strength Structures and Joints by Setting up Local Material Properties”, set up in 2006 by the German Research Foundation (DFG). This Collaborative Research Centre is the result of cooperation between the research institutes of Clausthal University of Technology and Leibniz Universität, Hanover. The purpose of SFB 675 is to develop materials and manufacturing processes for high-strength structures, having graduated and locally engineered properties, by exploiting material, physical and/or geometrical effects. The incorporation of locally altered material properties, tailored to handle the strains expected to be encountered during use, lead to increases in the efficiency of the whole structure. This book offers an interesting overview of this intriguing topic.