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Innovative Technologies and Materials for the Production of Mechanical, Thermal and Corrosion Wear-Resistant Surface Layers and Coatings

Innovative Technologies and Materials for the Production of Mechanical, Thermal and Corrosion Wear-Resistant Surface Layers and Coatings

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Welding technologies of applying surface layers from innovative metal, ceramic, and cermet materials, called heat surfacing and spraying, are an important component of rational repair management and modern design of machine parts and devices with special operating properties. This reprint, which is a collection of current scientific works by international authors in the field of surface coating with welding technologies, presents the following:· Analysis of the causes of wear of working surfaces of machine parts and equipment;· Description of most materials used in world industry for surfacing and thermal spraying;· Extensive discussion of all modern technologies of applying surface layers (from gas cladding, through plasma spraying, to laser cladding);· Examples of technological conditions of surfacing and thermal spraying processes of parts of various types and shapes.The Editors of this Special Issue, titled "Innovative Technologies and Materials for the Production of Mechanical, Thermal and Corrosion Wear-Resistant Surface Layers and Coatings", recommend this reprint to students of materials engineering and welding engineers. Undoubtedly, its reprint should be in the handy library of everyone who professionally deals with welding, especially repair management.

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Keywords

  • abrasion
  • aluminum matrix composites
  • AZ31 magnesium alloy
  • bioresorbable stent
  • brittle fracture strength
  • cavitation corrosion
  • chemical nature of Co binder
  • cladding
  • Co content
  • cobalt
  • composite layers
  • contact resistance
  • Corrosion
  • corrosion resistance
  • deposition
  • discrete phase model
  • elbow
  • electrochemical corrosion resistance
  • Erosion
  • erosion rate
  • erosive wear
  • failure analysis
  • GGIs
  • glassy carbon
  • grain size
  • GTAW welding
  • H2SO4 + CO2
  • hardness
  • High Velocity Oxy Fuel
  • high-temperature brittleness range
  • History of engineering & technology
  • HLAW
  • hot cracking
  • hybrid welding
  • impact load
  • impact strength
  • Inconel 625
  • Inconel 713C
  • I–V characteristics
  • laser beam
  • laser cladding
  • LDMD
  • MAG metal active gas
  • magnesium alloy
  • MCrAlY
  • metal matrix composite
  • Microstructure
  • nanostructured hardmetals
  • NiBSi alloy
  • Nickel
  • nickel alloy
  • Parylene C
  • phase interaction
  • plug flow
  • potential difference (PD) method
  • PPTAW
  • PTAW
  • residual stress analysis—sin2ψ method
  • resistivity
  • roughness
  • sand
  • silicon carbide
  • silicon solar cells
  • steel S960QL
  • surface coating
  • Surface engineering
  • synthetic metal–diamond composite
  • synthetic polycrystalline diamond
  • Technology, engineering, agriculture
  • Technology: general issues
  • TIG welding
  • titanium carbide
  • titanium diboride
  • transition metal carbides
  • transmission line model (TLM) method
  • transvarestraint test
  • tribological test
  • tribology
  • tungsten carbide
  • U-bends
  • wear
  • X-ray diffraction

Links

DOI: 10.3390/books978-3-0365-9092-9

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