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Hot Deformation and Microstructure Evolution of Metallic Materials

Hot Deformation and Microstructure Evolution of Metallic Materials

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Hot deformation is a key method of processing metallic materials and controlling their final properties through structure-forming processes. The ability to exploit the structural potentiality of both traditional alloys and new progressive materials is crucial in terms of sustainable development and economic growth. This reprint focuses not only on conventional technologies (e.g., rolling or forging) but also on modern procedures, such as various types of complex thermomechanical processing and controlled cooling. Most papers are based on the application of advanced hot deformation simulators and structural analysis methods, as well as computer simulations of bulk-forming processes.

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Keywords

  • 47Zr-45Ti-5Al-3V alloy
  • activation energy at hot forming
  • activation energy maps
  • aircraft mounts
  • Al6061
  • aluminium
  • Aluminium alloys
  • aluminum alloy
  • Al–Cu alloys
  • Artificial Neural Networks
  • austenite conditioning
  • austenite grain size
  • austenite to ferrite transformation
  • austenitization temperature
  • Barkhausen noise
  • bonding strength
  • brake disk
  • Ca
  • car bodies
  • carbon steels
  • CCT diagram
  • cellular automaton
  • closure of discontinuities
  • compression
  • constitutive equations
  • constitutive model
  • critical strain for induce of dynamic recrystallization
  • deformation
  • deformation characteristics
  • deformation mechanism
  • DRX behavior
  • dynamic and post-dynamic softening
  • dynamic recrystallisation
  • dynamic recrystallization
  • extrusion
  • fe
  • FEM
  • FEM modelling
  • ferrite grain size
  • final microstructure and mechanical properties
  • finite element method (FEM)
  • flat anvils
  • flow behavior
  • flow curve
  • flow stress maps
  • flow stress model
  • Forging
  • forging metal specimens
  • forming
  • hammer forging
  • hidden defects
  • high-carbon bainitic steel
  • History of engineering & technology
  • hot deformation behavior
  • hot flow stress curves
  • hot rolling
  • hot-rolling
  • hot-working
  • Industrial Research
  • KoBo extrusion
  • low carbon and low alloy steel
  • low-alloy steel
  • LPSO phase
  • magnesium alloy AZ91
  • magnesium alloys
  • Materials science
  • Mechanical engineering & materials
  • Mechanical properties
  • meshless methods
  • metal matrix composite
  • Mg-6.8Y-2.5Zn-0.4Zr
  • Microstructure
  • microstructure and superplastic deformation
  • microstructure evolution
  • multipass torsion tests
  • n/a
  • Nb–Mo-microalloyed steels
  • open die forging
  • peak flow stress
  • peak strain
  • phase transformations
  • physical modeling
  • physical modelling
  • plastic deformation
  • plastometric tests
  • processing map
  • processing maps
  • PSCT
  • radial basis functions
  • recrystallization
  • rheological properties
  • SEM-EBSD microstructural analysis
  • semi-solid isothermal compression
  • shaped anvils
  • static recrystallization
  • steel
  • strain-induced precipitation
  • stress correction
  • Structure
  • super-duplex stainless steel (SDSS)
  • Technology, engineering, agriculture
  • Technology: general issues
  • tensile deformation
  • Texture
  • Thermal stability
  • thermomechanical processing
  • twin-roll casting
  • ultrasonic investigation
  • warm deformation
  • β titanium alloy

Links

DOI: 10.3390/books978-3-0365-7745-6

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