Strained Metallic Surfaces: Theory, Nanostructuring and Fatigue StrengthISBN: 978-3-527-32344-9
Hardcover
258 pages
January 2009
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Introduction
Peculiarities of Metallic Surfaces
Experimental Techniques
The Electron Work Function of Strained Surfaces
Modeling of the Work Function
Contact Interaction of Metallic Surfaces
Fatigue Location Prediction
Computer Simulation of Parameter Evolution During Fatigue
Stressed Surfaces in Gas Turbine Engine Components
Strengthening and Nanostructuring of Metal Surfaces
The Physical Mechanism of Fatigue
Peculiarities of Metallic Surfaces
Experimental Techniques
The Electron Work Function of Strained Surfaces
Modeling of the Work Function
Contact Interaction of Metallic Surfaces
Fatigue Location Prediction
Computer Simulation of Parameter Evolution During Fatigue
Stressed Surfaces in Gas Turbine Engine Components
Strengthening and Nanostructuring of Metal Surfaces
The Physical Mechanism of Fatigue
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