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Machining—Recent Advances, Applications and Challenges

Machining—Recent Advances, Applications and Challenges

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The Special Issue Machining—Recent Advances, Applications and Challenges is intended as a humble collection of some of the hottest topics in machining. The manufacturing industry is a varying and challenging environment where new advances emerge from one day to another. In recent years, new manufacturing procedures have retained increasing attention from the industrial and scientific community. However, machining still remains the key operation to achieve high productivity and precision for high-added value parts. Continuous research is performed, and new ideas are constantly considered. This Special Issue summarizes selected high-quality papers which were submitted, peer-reviewed, and recommended by experts. It covers some (but not only) of the following topics: High performance operations for difficult-to-cut alloys, wrought and cast materials, light alloys, ceramics, etc.; Cutting tools, grades, substrates and coatings. Wear damage; Advanced cooling in machining: Minimum quantity of lubricant, dry or cryogenics; Modelling, focused on the reduction of risks, the process outcome, and to maintain surface integrity; Vibration problems in machines: Active and passive/predictive methods, sources, diagnosis and avoidance; Influence of machining in new concepts of machine–tool, and machine static and dynamic behaviors; Machinability of new composites, brittle and emerging materials; Assisted machining processes by high-pressure, laser, US, and others; Introduction of new analytics and decision making into machining programming. We wish to thank the reviewers and staff from Materials for their comments, advice, suggestions and invaluable support during the development of this Special Issue.

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Keywords

  • additive manufacturing
  • adhesive
  • aluminium
  • analytic solution
  • ANN
  • Artificial Neural Networks
  • artificial neutral network
  • butt weld joint
  • Ceramics
  • CFRP/UNS A92024
  • chatter
  • chip compression ratio
  • chip morphology
  • computer numerical control
  • Computer vision
  • Concrete
  • connections
  • cooling rate
  • corner radius
  • crack growth rate
  • cryogenic machining
  • current density
  • cutting edge microgeometry
  • cutting edge preparation
  • cutting geometry
  • cutting parameters
  • cutting process
  • cutting temperature
  • cutting tool
  • cutting tool wear
  • damping
  • deflection
  • Design of experiments
  • desirability approach
  • diameter variation
  • dish angle
  • drilling
  • dry
  • dry-cutting
  • DSC test
  • ductile machining
  • dynamic
  • electrochemical discharge machining
  • electropulsing
  • EN 31 steel
  • fast simulation
  • Fatigue
  • Finite element method
  • Finite Element Model
  • fixture
  • flank milling
  • flank super abrasive machining (SAM)
  • force–temperature correlation through analytical modeling
  • fractal dimension
  • fracture mechanism
  • GA
  • Gamma-TiAl
  • glass machining
  • GPU
  • grain density
  • grey relational analysis
  • heat transfer analysis
  • heat transfer search algorithm
  • high computational efficiency
  • History of engineering & technology
  • hole quality
  • Huber–Mises stress
  • hybrid stacks drilling
  • in situ estimation
  • Inconel 718
  • Inconel® 718
  • induction assisted milling
  • laser-assisted machining
  • machinability
  • machine tool
  • machine vision
  • Machining
  • machining characteristic
  • machining temperatures at two deformation zones
  • magnesium alloys
  • material removal rate
  • material-removal rate
  • microlens array
  • microscopic analysis
  • milling
  • Milling stability
  • minimum quantity lubrication
  • modal testing
  • modeling
  • modelling
  • multi-beam laser
  • multi-objective optimization
  • on-machine monitoring
  • optimal machining conditions
  • optimization
  • parameter identification
  • PCD
  • plastic zone
  • power consumption
  • prediction
  • prime machining costs
  • PVD Ti0.41Al0.59N/Ti0.55Al0.45N coating
  • real-time prediction
  • residual stress
  • residual stresses
  • response surface methodology
  • roughness
  • SACE-drilled hole depth
  • secondary adhesion wear
  • segmented diamond blade
  • self-excitation
  • shape memory alloy
  • shape memory effect
  • simulation
  • single point incremental sheet forming
  • sinusoidal grid
  • slight materials
  • slow tool servo
  • spark-assisted chemical engraving
  • specific cutting energy
  • specific energy consumption
  • Stability
  • steel sheet
  • stiffness properties
  • superalloys
  • superelastic nitinol
  • surface grinding
  • surface roughness
  • surface topography
  • sustainable machining
  • Taguchi method
  • Technology, engineering, agriculture
  • Technology: general issues
  • the cutting force components
  • thin-wall machining
  • Titanium
  • titanium alloy
  • Titanium alloys
  • titanium aluminides
  • tool insert condition
  • tool wear
  • topography
  • trochoidal milling
  • trochoidal step
  • turning
  • turning machine tools
  • ultra-precision machining
  • variable pitch
  • Vibration
  • vibrations
  • WEDM
  • Weight loss
  • weld reinforcement
  • workholding
  • X-ray diffraction

Links

DOI: 10.3390/books978-3-03921-378-8

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