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Recent Advances in Mechanisms of Fracture and Fatigue
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This reprint focuses on basic and applied research on fatigue and fracture processes in engineering of materials and composites. Special attention is given to understanding fracture processes from the point of view of micro and nano damage mechanisms related to material microstructure. Advanced experimental methods such as tomography, digital image correlation, high resolution electron microscopy and fractography are applied in combination with theoretical multiscale models based on finite element methods and fracture mechanics to reveal the fundamental causes of material failure.
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Keywords
- 316L stainless steel
- advanced high-strength steels
- artificial neural network
- bulk carrier
- ceramic matrix composites
- cleavage fracture
- coarse-grained Ni-based superalloys
- corrosion fatigue
- crack closure
- crack growth duration
- crack meso-tunneling
- cracks
- creep properties
- Crystal plasticity
- cycle wave form
- cyclic indentation
- cyclic material properties
- ductile-to-brittle transition
- durability
- EA4T steel
- environmental effect
- fatigue crack
- fatigue crack growth
- fatigue crack propagation
- fatigue damage
- fatigue life
- fatigue performance
- ferritic steel
- FGH96 alloy
- finite element analysis
- forged titanium alloy
- fractography
- Fracture
- fracture toughness
- frequency effect
- gigacycle fatigue
- high cycle fatigue
- high-temperature strength
- History of engineering & technology
- hull fracture
- hydrogen embrittlement
- in-situ testing
- inspection manholes
- interfaces
- inverse analysis
- kinetic equation
- laminated metallic composites
- large chamber SEM
- local approach
- local approach to fracture
- low-cycle fatigue
- Materials science
- mechanical and fracture properties identification
- Mechanical engineering & materials
- micro-indentation
- Microstructure
- modelling fracture
- Molecular Dynamics
- notch effect
- Numerical simulations
- optimisation analysis
- oxidation
- plasma charging
- residual stress
- scanning electron microscopy
- selective laser melting
- short fatigue crack growth
- silicon carbide
- size effect
- steel quality
- strain concentration factor
- strain rate effect
- surface morphology
- synchrotron radiation X-ray imaging
- synchrotron tomography
- Technology, engineering, agriculture
- Technology: general issues
- temperature dependence
- tensile characteristics
- threshold
- toughening mechanisms
- ultra-high steel grades
- ultrasonic fatigue
- underload cycles
- very high cycle fatigue
- Vickers hardness
- Weibull stress
Links
DOI: 10.3390/books978-3-0365-7233-8Editions