Fracture Mechanics and Fatigue Design in Metallic Materials

The accumulation of damage and the development of fatigue cracks under the influence of loads is a common phenomenon that occurs in metals. To slow down crack growth and ensure an adequate level of safety and the optimal durability of structural elements, experimental tests and simulations are requi...

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Other Authors: Rozumek, Dariusz (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online Access:DOAB: download the publication
DOAB: description of the publication
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520 |a The accumulation of damage and the development of fatigue cracks under the influence of loads is a common phenomenon that occurs in metals. To slow down crack growth and ensure an adequate level of safety and the optimal durability of structural elements, experimental tests and simulations are required to determine the influence of various factors. Such factors include, among others, the impact of microstructures, voids, notches, the environment, etc. Research carried out in this field and the results obtained are necessary to guide development toward the receipt of new and advanced materials that meet the requirements of the designers. This Special Issue aims to provide the data, models and tools necessary to provide structural integrity and perform lifetime prediction based on the stress (strain) state and, finally, the increase in fatigue cracks in the material. 
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546 |a English 
650 7 |a Technology: general issues  |2 bicssc 
653 |a fatigue 
653 |a fracture 
653 |a very-high cycle 
653 |a high-entropy alloy 
653 |a powder metallurgy 
653 |a fish eye 
653 |a crack branching behavior 
653 |a micromechanical analysis 
653 |a crack propagation path 
653 |a welded joints 
653 |a stress concentration 
653 |a vibration-based fatigue 
653 |a ultra-high frequency 
653 |a very high cycle fatigue 
653 |a fatigue test 
653 |a titanium alloy 
653 |a hydrogen re-embrittlement 
653 |a environmentally assisted cracking 
653 |a galvanic protection 
653 |a high strength steel 
653 |a crack front shape 
653 |a structural plates 
653 |a through-the-thickness crack 
653 |a steady-state loading conditions 
653 |a small-scale yielding 
653 |a pearlitic steel 
653 |a CFRP patches 
653 |a crack retardation 
653 |a fatigue crack growth 
653 |a failure analysis 
653 |a fatigue variability 
653 |a alloy 625 
653 |a thin tube 
653 |a fractography 
653 |a microstructure 
653 |a aluminum hand-hole 
653 |a nonreinforced hand-hole 
653 |a design S-N curve 
653 |a high cycle fatigue 
653 |a CP Ti 
653 |a stress amplitude 
653 |a fatigue crack propagation 
653 |a crack growth rate 
653 |a roughness-induced crack closure 
653 |a fracture toughness 
653 |a machine learning 
653 |a artificial neural network 
653 |a predictor 
653 |a yield stress 
653 |a tensile strength 
653 |a specimen size 
653 |a 2524-T3 aluminum alloy 
653 |a corrosion 
653 |a crack propagation 
653 |a n/a 
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856 4 0 |a www.oapen.org  |u https://directory.doabooks.org/handle/20.500.12854/77135  |7 0  |z DOAB: description of the publication