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669.15 --- Steel, High strength --- -Phase rule and equilibrium --- -Chemistry, Physical and theoretical --- Critical phenomena (Physics) --- Equilibrium --- Chemical equilibrium --- Chemical systems --- Critical point --- High strength steel --- Steel, Heat resistant --- Tool-steel --- Alloys of iron with elements other than carbon. Alloy steel. Alloyed cast iron. Ferroalloys --- Congresses --- Phase rule and equilibrium --- Congresses. --- -Alloys of iron with elements other than carbon. Alloy steel. Alloyed cast iron. Ferroalloys --- 669.15 Alloys of iron with elements other than carbon. Alloy steel. Alloyed cast iron. Ferroalloys --- -669.15 Alloys of iron with elements other than carbon. Alloy steel. Alloyed cast iron. Ferroalloys --- Acier ferritique --- Acier martensitique --- Acier special

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Metals --- -erosie --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Handbooks, manuals, etc --- -waterstof --- Hoonmachines --- Metaalbewerkingsgereedschappen --- Snijgereedschap --- -slijtage --- -corrosie --- (03):669 --- breukmechanica --- materialen --- metalen --- metallurgie --- testen --- -metaal --- ijzer --- staal --- 669 --- toegepaste mechanica --- werkplaatstechniek --- 621.7/.9 --- 621.9 --- CAD/CAM --- Metaalbewerking --- Numerieke besturing --- Slijpen --- Verbindingstechnieken --- Verspanende bewerking --- Werkplaatstechniek --- 669 Metallurgy --- 620.193 --- 620.193 Physical and chemical influences. Corrosion. Resistance to attack --- Physical and chemical influences. Corrosion. Resistance to attack --- Handbooks, manuals, etc. --- -brosheid --- corrosie --- corrosiemeting --- corrosiepreventie --- legering --- anticorrosie --- kernenergie veiligheid --- corrosiedetectie --- -Metallic elements --- -vermoeiing --- -chromatografie --- materiaalonderzoek --- metallografie --- radiochemische analyse --- resonantie --- spectroscopie --- -temperatuur --- lassen --- as --- lagers --- veer --- tandwielen --- warmte --- wisselaar --- buizen --- bruggen --- stockage --- vaten --- stoom --- Materials --- Métaux --- Matériaux --- Testing --- Essais --- Métaux --- Metalen. --- Monograph --- -Handbooks, manuals, etc --- Corrosion --- Corrosion, lutte contre la --- Electrochimie --- Carbon steel heat treatment --- Alloy steel heat treatment --- Alloy steel products --- Carbon steel properties --- Metals handbook --- Alloy steel properties --- Carbon steel products --- Cast iron properties

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Fracture, fatigue, and other subcritical processes, such as creep crack growth or stress corrosion cracking, present numerous open issues from both scientific and industrial points of view. These phenomena are of special interest in industrial and civil metallic structures, such as pipes, vessels, machinery, aircrafts, ship hulls, and bridges, given that their failure may imply catastrophic consequences for human life, the natural environment, and/or the economy. Moreover, an adequate management of their operational life, defining suitable inspection periods, repairs, or replacements, requires their safety or unsafety conditions to be defined. The analysis of these technological challenges requires accurate comprehensive assessment tools based on solid theoretical foundations as well as structural integrity assessment standards or procedures incorporating such tools into industrial practice.

n/a --- reuse --- microstructure --- fatigue crack growth --- micromechanisms --- weld joint --- FFM --- slow strain rate tensile test --- fracture --- orthotropic steel bridge deck --- fatigue --- three-point bending fatigue --- EMC --- notch effect --- thermal desorption spectroscopy --- synchrotron radiation --- tube specimen with hole --- critical distance --- Inconel 690 tube --- fatigue test --- failure assessment diagram (FAD) --- alloy steel --- X-ray techniques --- overload --- aluminium plates --- fatigue strength --- fastener --- high strength low alloy steels (HSLA) --- internal fatigue fracture --- ?CT imaging --- hydrogen induced cracking (HIC) --- notch --- rotating bending --- local strain --- aluminum foam sandwich --- structural steel --- surface defect --- compressive residual stress --- blunt V-notches --- cathodic polarization --- needle peening --- semi-elliptical crack --- fatigue life --- hydrogen-induced delayed fracture --- fatigue design curve --- subcritical propagation --- cathodic polarization or cathodic charge (CC) --- hydrogen embrittlement --- aircraft --- fatigue limit --- environmentally assisted cracking --- ductile failure --- mode I loading --- cathodic protection (CP) --- peel strength --- hot-press-formed steel --- crack initiation --- retardation --- theory of critical distances --- welded joint

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The 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.

Technology: general issues --- hierarchical structure --- multilayer PVD coating --- stochastic process --- convection and diffusion --- reactive magnetron sputtering --- argon --- nitrogen and ethylene --- TaSi2 --- Ta3B4 and ZrB2 --- SHS and hot pressing --- composition and structure --- hardness and elastic modulus --- friction coefficient and wear resistance --- oxidation resistance --- diamond-like coatings --- nitride sublayer --- index of plasticity --- adhesive bond strength --- end mills --- hard alloy --- wear resistance --- milling of aluminum alloys --- milling of structural steels --- surface quality --- modeling --- carbon flux --- low-pressure vacuum carburizing --- medium-high alloy steel --- nanolayered PVD coating --- microdroplets --- crack formation --- tool wear --- nanolayered coating --- microparticles --- monocrystalline --- high-pressure, high-temperature (HPHT) diamond --- chemical vapor deposition (CVD) diamond --- high-fluence ion irradiation --- Ar+ --- C+ --- SEM --- AFM --- Raman spectra --- electrical conductivity --- AlCr-based --- CrAl-based --- (AlCrX)N --- (Al1−xCrx)2O3 --- arc --- HiPIMS --- nanolayers --- nanocomposite --- structure --- properties --- roughness --- coatings --- finish turning --- PCBN --- tempered steel --- micro cutters --- cutting edges --- wear-resistance --- coating deposition --- adhesion --- plasma --- ions --- charge exchange collisions --- fast gas atoms --- etching --- sharpening --- diamond-like carbon coating --- high-speed milling --- nickel alloy --- SiAlON --- spark plasma sintering --- adaptive coating --- adaptive material --- composite powder HSS --- cutting tool --- secondary structures --- surface layer --- thermal-force loads

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Additive manufacturing (AM) is one of the manufacturing processes that warrants the attention of industrialists, researchers and scientists, because of its ability to produce materials with a complex shape without theoretical restrictions and with added functionalities. There are several advantages to employing additive manufacturing as the primary additive manufacturing process. However, there exist several challenges that need to be addressed systematically. A couple such issues are alloy design and process development. Traditionally alloys designed for conventional cast/powder metallurgical processes were fabricated using advanced AM processes. This is the wrong approach considering that the alloys should be coined based on the process characteristics and meta-stable nature of the process. Hence, we must focus on alloy design and development for AM that suits the AM processes. The AM processes, however, improve almost every day, either in terms of processing capabilities or processing conditions. Hence, the processing part warrants a section that is devoted to these advancements and innovations. Accordingly, the present Special Issue (book) focuses on two aspects of alloy development and process innovations. Here, 45 articles are presented covering different AM processes including selective laser melting, electron beam melting, laser cladding, direct metal laser sintering, ultrasonic consolidation, wire arc additive manufacturing, and hybrid manufacturing. I believe that this Special Issue bears is vital to the field of AM and will be a valuable addition.

microstructure --- slag --- crystallographic texture --- epoxy solder --- additive manufacturing --- substrate preheating --- thermosetting epoxy resin --- AlSi10Mg alloy --- impact --- residual stress --- stability lobe diagram --- laves phase --- vanadium --- selective laser melting (SLM) --- molten pool dynamic behavior --- scanning strategy --- pulse frequency --- thin-walled weak rigidity parts --- scanning --- aluminum --- elastic abrasive --- 2219 aluminum alloy --- Powder bed --- ABS --- laser energy density --- equivalent processing model --- composition --- numerical analysis --- scanning electron microscopy (SEM) --- Hastelloy X alloy --- regular mixing --- texture evolution --- graphene nano-sheets (GNSs) --- Electron Beam Melting --- powder bed fusion --- microstructural evolution --- Mg content --- cement --- bulk metallic glasses --- grain refinement --- Taguchi --- intermediate thermo-mechanical treatment --- valorization --- microstructure and properties --- arc current --- high computational efficiency --- powder properties --- dynamic characteristics --- composite materials --- CuAl2 phase --- rapid solidification --- magnetizer --- M300 mold steel --- circular economy --- titanium alloy --- Al–5Si alloy --- Al–Mg–Si alloy --- ultrasonic bonding --- water absorption --- disc brake --- support strategy --- inoculation --- arc additive manufacture --- 3D metal printing --- ultrafast laser --- Hot Isostatic Pressure --- arc additive manufacturing --- continuous carbon fiber --- performance characteristics --- process-damping --- intermetallic compound (IMC) --- interfaces --- direct metal laser sintering --- porosity --- nickel-based superalloy --- element segregation --- hydrophobicity --- H13 tool steel --- Cu50Zr43Al7 --- metal powders --- parameter optimization --- side spatters --- powder packing --- 3D printing --- precipitates --- n/a --- simulation --- laser cladding deposition --- melt pool size --- quenching rate --- Al–Mg alloy --- tailored properties --- workpiece scale --- fatigue --- laser cladding --- Ti-6Al-4V --- deformation --- quality of the as-built parts --- model --- milling --- wire feeding additive manufacturing --- martensitic transformation --- ball milling --- Inconel 718 --- ablation --- in-process temperature in MPBAM --- subgranular dendrites --- porosity reduction --- femtosecond --- paint bake-hardening --- Al6061 --- defects --- continuous dynamic recrystallization --- wear --- Additive manufacturing --- volumetric heat source --- Ti6Al4V alloy --- AlSi10Mg --- radial grooves --- GH4169 --- temperature and stress fields --- laser powder bed fusion --- metallic glasses --- numerical simulation --- latent heat --- divisional scanning --- wire lateral feeding --- laser powder bed fusion (LPBF) --- heat treatment --- thermal behaviour --- fused filament fabrication --- microstructures --- thermal conductivity --- 12CrNi2 alloy steel powder --- tensile strength --- hot stamping steel blanks --- multi-laser manufacturing --- aluminum alloys --- additive surface structuring --- parts design --- process parameters --- thermal stress analysis --- SLM process parameters --- nickel alloys --- Al–Si --- powder flowability --- laser power absorption --- refractory high-entropy alloy --- localized inductive heating --- mechanical properties --- selective laser melting --- storage energy --- concrete --- mechanical property --- gray cast iron --- constitutive model --- analytical modeling --- hot deformation --- epitaxial growth --- design --- flowability --- amorphous alloy --- PSO-BP neural network algorithm --- molten pool evolution --- microhardness measurement --- macro defects --- thermal capillary effects --- finite element analysis --- dynamic properties --- WxNbMoTa --- properties --- Al-5Si alloy --- Al-Mg-Si alloy --- Al-Mg alloy --- Al-Si