TY  - GEN
T1  - Technologies of Coatings and Surface Hardening for Tool Industry II
A2  - Grigoriev, Sergey N.
LA  - eng
PB  - MDPI - Multidisciplinary Digital Publishing Institute
YR  - 2024
UL  - https://ebooks.jgu.edu.in/Record/doab-20.500.12854-137458
AB  - The innovative multi-component, nanocomposite, self-healing adaptive, and nano-thin coatings, technologies of their deposition, surface hardening and engineering developed in recent years allow us to obtain practically any physical–mechanical or crystal–chemical properties of the surface for prolongation of the service life of responsible product working under the conditions of intensive mechanical and thermal loads, and moisture. The scientific approach to improving the operational parameters of the product's surface made of traditional industrial materials is a highly costly and long-lasting process. Different technological techniques, such as plasma vapor deposition (radio frequency magnetron sputtering, high-power impulse magnetron sputtering, closed-field unbalanced magnetron sputtering, filtered cathodic vacuum arc deposition), atomic layer deposition, and other solutions are used for this. The edition aims to provide a review of the current state of the research and developments in the field of coatings and surface hardening technologies for cutting tools and microelectronics components, diagnostic solutions of the sputtering systems that can ensure a substantial increase in the reliability and operational life of the product. The main emphasis lies in the results of the research and engineering works that have proven successful in laboratory or manufacturing conditions. The presented studies are aimed at completing the previously published advances in the first Special Issue and contributing to the transfer of the tool industry to the next technological paradigm.
SN  - 9783036588889
SN  - 9783036588896
KW  - multilayer composite multicomponent coating
KW  - diffusion
KW  - wear
KW  - metal-cutting tool
KW  - plastic deformation
KW  - oxidation
KW  - coatings
KW  - nickel alloy
KW  - CrZrSiN coating
KW  - bilayer period
KW  - hardness
KW  - friction coefficient
KW  - adhesion strength
KW  - CrAlN coating
KW  - interlayer
KW  - thermal stability
KW  - room temperature-ALD
KW  - high-performance computing
KW  - ASIC
KW  - wear-out test
KW  - uHAST
KW  - MoSi2-based coatings
KW  - magnetron sputtering
KW  - microstructure
KW  - Young’s modulus
KW  - tribological properties
KW  - impact wear resistance
KW  - oxidation resistance
KW  - hexagonal boron nitride coatings
KW  - in-situ generated composite
KW  - tribochemistry
KW  - high temperature low friction
KW  - ceramic inserts
KW  - surface layer
KW  - diamond grinding defects
KW  - lapping and polishing
KW  - vacuum arc coatings
KW  - hardened steel milling
KW  - dispersion of resistance
KW  - tool reliability
KW  - microtexturing
KW  - carbide tool
KW  - thermal force parameters
KW  - mathematical modeling
KW  - electrical discharge plasma
KW  - analyzing methods
KW  - Physical Vapor Deposition (PVD)
KW  - energy distribution
KW  - counter milling
KW  - nanostructured composite multilayer coatings
KW  - titanium alloys
KW  - wear resistance
KW  - tool durability period
KW  - cutting path length
KW  - adhesion component of friction coefficient
KW  - temperature
KW  - cutting forces
KW  - nanostructured coatings
KW  - yttrium nitride
KW  - tool wear
KW  - metal cutting
KW  - n/a
KW  - thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
ER  -