LEADER 05064nam 2201309z- 450 001 9910557793303321 005 20231214133655.0 035 $a(CKB)5400000000045455 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/77013 035 $a(EXLCZ)995400000000045455 100 $a20202201d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aTechnologies of Coatings and Surface Hardening for Tool Industry 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 electronic resource (250 p.) 311 $a3-0365-2452-5 311 $a3-0365-2453-3 330 $aThe innovative coating and surface hardening technologies developed in recent years allow us to obtain practically any physical?mechanical or crystal?chemical complex properties of the metalworking tool surface layer. Today, the scientific approach to improving the operational characteristics of the tool surface layers produced from traditional tools industrial materials is a highly costly and long-lasting process. Different technological techniques, such as coatings (physical and chemical methods), surface hardening and alloying (chemical-thermal treatment, implantation), a combination of the listed methods, and other solutions are used for this. This 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 and die tools that can ensure a substantial increase of the work resource and reliability of the tool, an increase in productivity of machining, accuracy, and quality of the machined products, reduction in the material capacity of the production, and other important manufacturing factors. In doing so, the main emphasis should be on the results of the engineering works that have had a prosperous approbation in a laboratory or real manufacturing conditions. 606 $aTechnology: general issues$2bicssc 610 $ahierarchical structure 610 $amultilayer PVD coating 610 $astochastic process 610 $aconvection and diffusion 610 $areactive magnetron sputtering 610 $aargon 610 $anitrogen and ethylene 610 $aTaSi2 610 $aTa3B4 and ZrB2 610 $aSHS and hot pressing 610 $acomposition and structure 610 $ahardness and elastic modulus 610 $afriction coefficient and wear resistance 610 $aoxidation resistance 610 $adiamond-like coatings 610 $anitride sublayer 610 $aindex of plasticity 610 $aadhesive bond strength 610 $aend mills 610 $ahard alloy 610 $awear resistance 610 $amilling of aluminum alloys 610 $amilling of structural steels 610 $asurface quality 610 $amodeling 610 $acarbon flux 610 $alow-pressure vacuum carburizing 610 $amedium-high alloy steel 610 $ananolayered PVD coating 610 $amicrodroplets 610 $acrack formation 610 $atool wear 610 $ananolayered coating 610 $amicroparticles 610 $amonocrystalline 610 $ahigh-pressure, high-temperature (HPHT) diamond 610 $achemical vapor deposition (CVD) diamond 610 $ahigh-fluence ion irradiation 610 $aAr+ 610 $aC+ 610 $aSEM 610 $aAFM 610 $aRaman spectra 610 $aelectrical conductivity 610 $aAlCr-based 610 $aCrAl-based 610 $a(AlCrX)N 610 $a(Al1?xCrx)2O3 610 $aarc 610 $aHiPIMS 610 $ananolayers 610 $ananocomposite 610 $astructure 610 $aproperties 610 $aroughness 610 $acoatings 610 $afinish turning 610 $aPCBN 610 $atempered steel 610 $amicro cutters 610 $acutting edges 610 $awear-resistance 610 $acoating deposition 610 $aadhesion 610 $aplasma 610 $aions 610 $acharge exchange collisions 610 $afast gas atoms 610 $aetching 610 $asharpening 610 $adiamond-like carbon coating 610 $ahigh-speed milling 610 $anickel alloy 610 $aSiAlON 610 $aspark plasma sintering 610 $aadaptive coating 610 $aadaptive material 610 $acomposite powder HSS 610 $acutting tool 610 $asecondary structures 610 $asurface layer 610 $athermal-force loads 615 7$aTechnology: general issues 700 $aGrigoriev$b Sergey N$4edt$01279134 702 $aGrigoriev$b Sergey N$4oth 906 $aBOOK 912 $a9910557793303321 996 $aTechnologies of Coatings and Surface Hardening for Tool Industry$93014641 997 $aUNINA