Mechanical, Corrosive and Tribological Degradation of Metal Coatings and Modified Metallic Surfaces

doi:10.3390/books978-3-7258-0276-0

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Mechanical, Corrosive and Tribological Degradation of Metal Coatings and Modified Metallic Surfaces

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February 2024

356 pages

ISBN978-3-7258-0275-3 (Hardback)
ISBN978-3-7258-0276-0 (PDF)

https://doi.org/10.3390/books978-3-7258-0276-0

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This book is a reprint of the Special Issue Mechanical, Corrosive and Tribological Degradation of Metal Coatings and Modified Metallic Surfaces that was published in

Chemistry & Materials Science

Engineering

Summary

Material degradation is a long-standing issue that poses a number of challenges from both a scientific and engineering perspective. In particular, metallic materials and their surfaces can be significantly affected by the effects of degradation, which reduce their properties over time, thereby leading to premature failure or loss of functionality. This reprint presents a collection of studies on the mechanical, corrosive, and tribological degradation of metal coatings and modified metallic surfaces. The subject is discussed from theoretical, experimental, and synthesis perspectives.

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Hardback

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Keywords

deep cryogenic treatment; nitrogen; passive film; ToF-SIMS; surface chemistry; corrosion resistance; cauliflower–like agglomerates; Co contents; crystallinity; Fe–Co–Ni thin film samples; magnetic properties; phase structure; pyramidal particles; roughness parameters; n/a; magnesium alloy; ultrasonic rolling; ion implantation; friction and wear; corrosion; roasting denitrification; additive; process parameter; aluminum alloy profiles; stretch-bend forming; friction coefficient; plastic deformation; deformation gradient; corrosion; surface topography; mathematical model; corroded steel surface; marine soil; shallow cryogenic treatment (SCT); deep cryogenic treatment (DCT); cold work tool steel; microstructure; mechanical properties; laser modification; titanium; titanium alloys; Mg1; Al1060; diffusion welding; intermetallic compounds; diffusion layers; corrosion resistance; TiO₂ NTAs; CuInSe₂; photocathodic protection; 316 SS; EIS; welded hollow spherical joints; CFRP strengthening method; fatigue performance; S-N curve; surface roughness; size effect; grain size; 3D voronoi; micro-forming; steel coating assessment; near-infrared spectroscopy; deep learning; degradation; biomedical high entropy alloy; TiZrTaNbSn; corrosion resistance; mechanical properties; friction and wear; refractory high-entropy alloys; micro-arc oxidation; voltage; microstructure; high-temperature oxidation resistance; ceramic coatings; 16Mo3 steel; high temperature oxidation; TGA; water vapor; electrochemical synthesis; molten salts; nanostructured coatings; refractory carbide coatings; carbon fibers; nanorods; nanoneedles; defect detection; YOLOv7; deep learning; ConvNeXt; attention pooling module; surface modification; doping; grid plasma cathode; electron beam; Nb–steel system; high-rate crystallization; energy sector; renewable energy; fusion; metallic materials; cryogenic treatment; surface; interface; corrosion