Additive Manufacturing (AM) for Advanced Materials and Structures

Additive Manufacturing (AM) for Advanced Materials and Structures

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Additive manufacturing (AM), as an advanced manufacturing technology, has overturned the traditional concept of subtractive manufacturing. It has revolutionized advanced integrated structural design, high-performance material preparation, and the manufacturing of complex components. AM technology is changing the way products are developed, produced, and commercialized, leading to disruptive changes in the economy and society. AM technology has received extensive attention and research from the research community since its inception, and it is leading manufacturing technology and continues to be used with great effectiveness in the aerospace industry, automotive industry, medical plant applications, and many other fields. However, the development of additive manufacturing still faces demanding technical challenges; for example, due to insufficient process planning and inadequate process control, many defects are often observed in the products of AM processes, reducing production efficiency and deteriorating product quality. To promote AM technology toward high efficiency, high precision, high performance, and low cost in a green and intelligent direction, many advanced design and manufacturing technologies are in urgent need of further breakthroughs, such as numerical and analytical models for structural design, experimental methods, performance prediction, and process optimization.

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  • 3D printing
  • 55SiCr steel
  • accuracy
  • adaptive neuron-fuzzy methods
  • additive manufacture
  • additive manufacturing
  • adhesive wear
  • AlSi10Mg
  • aluminum matrix composites
  • artificial neural network
  • BCCZ
  • cemented carbide
  • CFA
  • composite alloy powder
  • compression
  • continuous carbon fiber reinforced
  • corrosion resistance
  • Defects
  • diamond coating
  • diamond structure
  • FeCrAl alloy
  • femtosecond laser
  • formability
  • functionally graded structure
  • fused deposition modeling
  • fused deposition modeling (FDM)
  • Generation
  • geometric accuracy
  • heat treatment
  • high temperature viscosity
  • high-voltage electric field-driven jet
  • History of engineering & technology
  • HVOF spraying
  • imitative full stress method
  • indentation work
  • joule thermal
  • laser cladding
  • laser manufacturing
  • laser powder bed fusion
  • laser powder bed fusion (LPBF)
  • lattice structures
  • LPBF
  • lubricating film
  • Machine learning
  • Mathematical model
  • Mechanical properties
  • micro-droplet
  • micro-scale wax structure
  • microhardness
  • Microstructure
  • microstructure evolution
  • multiple linear regression
  • multiple-crack propagation
  • n/a
  • nano-Si3N4
  • nanomechanical properties
  • near-infrared
  • NiCoCrAlYCe coatings
  • non-metallic inclusions
  • peridynamic method
  • picosecond laser
  • polycaprolactone (PCL)
  • powder bed fusion
  • process parameters
  • projection stereolithography
  • refining slag
  • resin matrix composites
  • scaffolds structure
  • Se doping silicon
  • seawater environment
  • selective laser melting
  • sensitivity analysis
  • simulation
  • single layer linear grid structure
  • SLM additive manufacturing
  • special material manufacturing
  • specific energy absorption
  • specific sensitivity analysis
  • spring steel
  • strain rate
  • strain rate sensitivity
  • Taylor cone
  • Technology, engineering, agriculture
  • Technology: general issues
  • tensile strength
  • thin-wall cladding
  • tribological performance
  • ultrafast laser
  • Utilization
  • viscous drag force
  • wear resistance


DOI: 10.3390/books978-3-0365-6334-3


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