Reprint

Mechanical Properties of Advanced Multifunctional Coatings

Edited by
April 2023
196 pages
  • ISBN978-3-0365-6670-2 (Hardback)
  • ISBN978-3-0365-6671-9 (PDF)

This book is a reprint of the Special Issue Mechanical Properties of Advanced Multifunctional Coatings that was published in

Chemistry & Materials Science
Engineering
Summary

Advanced multifunctional coatings have made great unexpected advances in synthesis, characterization and properties, and they are also used in a variety of different fields. The mechanical properties of multifunctional coatings play a vital role in their interaction with external forces and environmental factors. Therefore, it is necessary to fully study the mechanical properties of advanced multifunctional coatings. After the launch of the Special Issue, thirteen papers have been collected and published. These original research articles cover not only the relevant research of advanced multifunctional coatings but also the interesting mechanical behaviour of surfaces and interfaces. We feel that the Special Issue provides a forum to share current research results and to promote further research into the mechanical behaviour of advanced multifunctional coatings.

Format
  • Hardback
License
© by the authors
Keywords
ceramic matrix composite; high temperature strength; SiC fiber; fiber–matrix interface coatings; residual stress; diamond-like carbon (DLC); plasma emission intensity; magnetron sputtering; tribological performance; hot casting metals; explosive compression bonding; dovetail groove; metallographic analysis; mechanics analysis; complex network theory; sandstone; network topology; seepage; distribution of degree; structure of engineering coatings; pore network model; complex network theory; geometric distribution; micropitting; gear surface fatigue; dedendum; addendum; SiO2 thin film; nanoindentation; surface morphology; load-penetration curve; hardness; lubrication; nanotribology; phase transition; adsorption; Monte Carlo simulation; molecular dynamics; thermal barrier coatings; thermal oxidation stress; Cr3+ photoluminescence piezospectroscopy; data processing method; fitting function; Lorentzian functions; spectromechanics; anti-reflection; nanoindentation; hardness; optical; interference; scratch; damage; CFD simulation; ultraviolet nanoimprint lithography; filling behavior; moth-eye nanostructure; thermal barrier coating; terahertz time-domain spectroscopy (THz-TDS); stress optic coefficient; barycenter method; nanoindentation; nanolaminates; atomic layer deposition; nanoengineering; n/a