Failure Mechanisms in Alloys
Material type:![Article](/opac-tmpl/lib/famfamfam/AR.png)
- books978-3-03928-277-7
- 9783039282760
- 9783039282777
- thermal-sprayed coatings
- n/a
- hydrogen-assisted cracking
- corrosion
- thermal aging
- modeling
- fracture plane
- macroscopic strength criterion
- lubrication
- slow-rate machining
- fracture
- parametric accelerated life testing
- constitutive equations
- austenitic stainless steels
- refractory steels
- crack growth
- micro flexible rolling
- tensile deformation
- shape
- high temperature fatigue
- tensile tests
- biaxial tensile test
- post-necking hardening
- EIS
- 3D Voronoi modelling
- SOHIC
- extrusion failures
- chip root
- cast duplex stainless steels
- bake hardening
- elastic moduli
- strip marking method
- wear
- flow loop
- austenitizing furnace
- failure analysis
- surface modification techniques
- creep fatigue
- pipeline steel
- yield strength
- convection tubes
- temperature
- low temperatures
- shear angle
- sensitization
- API 5L-X65
- dent resistance
- numerical simulation
- metal components
- linear Mohr-Coulomb criterion
- W-30Cu
- conveying system
- failure study
- texture
- finite element modeling
- AISI 304 stainless steel
- self-equalizing bearing
- surface-cracking process
- carbides
- potentiodynamic polarization
- cast reformer tubes
- aging
- reformer tubes
- multilinear regression
- softening
- polynomial regression
- GISSMO Model
- strength
- brass extrusion
- bendability
- degradation of protective layers
- inverse modeling
- G-phase
- forward slip prediction
- EBSD
- grain boundary
- quality improvement
- quality assessment
- smooth particle hydrodynamics
- hardfacings
- helix upper dispenser
- furnace component failure
- elevated temperature
- isotropic metals
- creep
- reliability design
- fracture mechanisms
- Titanium alloy machining
- failure mechanism
- mechanical properties
- faulty designs
- dynamic compression strength
- ductility
- automotive steels
- steam reforming
- cleavage fracture
- impingement
- automotive
- ductile irons
- erosion corrosion
- surface treatment
- HP-Mod
- impact toughness
- press hardening
- cold-working process
- chip formation
- nitrocarburizing
- built-up edge
- microhardness HV
- 6063 Alloy
- cutting forces
- tensile stress
- thermal distortion
- tribological properties
- plastic deformation processing
- CFD simulation
- wear scar
- nanocrystalline materials
- spinodal decomposition
- fractography
- microstructure homogeneity
- finite element analysis
- hot stamping
- iterative FEM Method
- thickness transition area
- fracture mechanics
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The era of lean production and excellence in manufacturing, advancing with sustainable development, demands the rational utilization of raw materials and energy resources, adopting cleaner and environmentally-friendly industrial processes. In view of the new industrial revolution, through digital transformation, the exploitation of smart and sophisticated materials systems, the need of minimizing scrap and increasing efficiency, reliability and lifetime and, on the other hand, the pursuit of fuel economy and limitation of carbon footprint, are necessary conditions for the imminent growth in a highly competitive economy. Failure analysis is an interdisciplinary scientific topic, reflecting the opinions and interpretations coming from a systematic evidence-gathering procedure, embracing various important sectors, imparting knowledge, and substantiating improvement practices. The deep understanding of material/component role (e.g., rotating shaft, extrusion die, gas pipeline) and properties will be of central importance for fitness for purpose in certain industrial processes and applications. Finally, it is hoped and strongly believed that the accumulation of additional knowledge in the field of failure mechanisms and the adoption of the principles, philosophy, and deep understanding of failure analysis process approach will strongly promote the learning concept, as a continuously evolving process leading to personal and social progress and prosperity.
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