Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Strained metallic surfaces : theory, nanostructuring and fatigue strength
Providing students as well as engineers and researchers with a must-have insight into the complexities of surface structure and behavior, this monograph extends beyond the usual introductory books, presenting concentrated knowledge on the surface science of metals, and connecting fundamentals with actual applications. Beginning with explanations of the intricacies of surfaces and their differences to bulk, it takes the reader through the vital steps towards macroscopic metallic components as well as surface nanostructuring. In so doing, it makes use of theory, experimental techniques, examples
Strained Metallic Surfaces; Contents; Introduction; 1 Peculiarities of the Metallic Surface; 2 Some Experimental Techniques; 3 Experimental Data on the Work Function of Strained Surfaces; 4 Modeling the Electronic Work Function; 5 Contact Interaction of Metallic Surfaces; 6 Prediction of Fatigue Location; 7 Computer Simulation of Parameter Evolutions during Fatigue; 8 Stressed Surfaces in the Gas-Turbine Engine Components; 9 Nanostructuring and Strengthening of Metallic Surfaces. Fatigue Behavior; 10 The Physical Mechanism of Fatigue; 11 Improvement in Fatigue Performance; 12 Supplement I.
Strained metallic surfaces : theory, nanostructuring and fatigue strength
Providing students as well as engineers and researchers with a must-have insight into the complexities of surface structure and behavior, this monograph extends beyond the usual introductory books, presenting concentrated knowledge on the surface science of metals, and connecting fundamentals with actual applications. Beginning with explanations of the intricacies of surfaces and their differences to bulk, it takes the reader through the vital steps towards macroscopic metallic components as well as surface nanostructuring. In so doing, it makes use of theory, experimental techniques, examples
Strained Metallic Surfaces; Contents; Introduction; 1 Peculiarities of the Metallic Surface; 2 Some Experimental Techniques; 3 Experimental Data on the Work Function of Strained Surfaces; 4 Modeling the Electronic Work Function; 5 Contact Interaction of Metallic Surfaces; 6 Prediction of Fatigue Location; 7 Computer Simulation of Parameter Evolutions during Fatigue; 8 Stressed Surfaces in the Gas-Turbine Engine Components; 9 Nanostructuring and Strengthening of Metallic Surfaces. Fatigue Behavior; 10 The Physical Mechanism of Fatigue; 11 Improvement in Fatigue Performance; 12 Supplement I.
Strained metallic surfaces : theory, nanostructuring and fatigue strength
Levitin, Valim (Autor:in) / Loskutov, Stephan
2009
1 Online-Ressource (viii, 250 pages)
Includes bibliographical references (pages 243-246) and index
Buch
Elektronische Ressource
Englisch
DDC:
620.16
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