Mechanics of Fatigue Mechanical and Aerospace Engineering Series
Auteur : Bolotin Vladimir V.
Mechanics of Fatigue addresses the range of topics concerning damage, fatigue, and fracture of engineering materials and structures. The core of this resource builds upon the synthesis of micro- and macro-mechanics of fracture. In micromechanics, both the modeling of mechanical phenomena on the level of material structure and the continuous approach are based on the use of certain internal field parameters characterizing the dispersed micro-damage. This is referred to as continuum damage mechanics.
The author develops his own theory for macromechanics, called analytical fracture mechanics. This term means the system cracked body - loading or loading device - is considered as a mechanical system and the tools of analytical (rational) mechanics are applied thoroughly to describe crack propagation until the final failure.
Chapter discuss:
Mechanics of Fatigue serves students dealing with mechanical aspects of fatigue, conducting research in fracture mechanics, structural safety, mechanics of composites, as well as modern branches of mechanics of solids and structures.
Date de parution : 09-2019
17.8x25.4 cm
Thèmes de Mechanics of Fatigue :
Mots-clés :
Crack Growth; Crack Tip; Fatigue crack nucleation; Fatigue Crack Growth; Crack Growth Rate; System cracked body; Stress Intensity Factors; Linear elastic bodies; Stress Concentration Factor; Elasto-plastic material; Damage Accumulation; Microdamage Accumulation; Continuum Damage Mechanics; Fatigue Crack; Crack Size; Cumulative Distribution Function; Initial Crack Size; Macroscopic Crack; Cyclic Fatigue; Fatigue Crack Propagation; Energy Release Rates; Crack Front; Damage Measures; Linear Visco Elastic; Plastic Straining; Unidirectional Fiber Composites; Stress Corrosion Cracking; Crack Trajectories
