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Viscoelasticity. --- Cylindrical shells --- Plastic flow

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This Special Issue focuses on computational detailed studies (simulation, modeling, and calculations) of the structures, main properties, and peculiarities of the various nanomaterials (nanocrystals, nanoparticles, nanolayers, nanofibers, nanotubes, etc.) based on various elements, including organic and biological components, such as amino acids and peptides. For many practical applications in nanoelectronics., such materials as ferroelectrics and ferromagnetics, having switching parameters (polarization, magnetization), are highly requested, and simulation of dynamics and kinetics of their switching are a very important task. An important task for these studies is computer modeling and computational research of the properties on the various composites of the other nanostructures with polymeric ferroelectrics and with different graphene-like 2-dimensional structures. A wide range of contemporary computational methods and software are used in all these studies.

Research & information: general --- Physics --- single nanowires --- silicon --- dual shells --- off-resonance --- absorption --- photocurrent --- magnetism --- transition-metal oxide clusters --- DFT calculations --- structure --- electronic properties --- LGD theory --- polarization --- nanoscale ferroelectrics --- kinetics --- homogeneous switching --- computer simulation --- fitting --- diphenylalanine --- peptide nanotubes --- self-assembly --- water molecules --- DFT --- molecular modelling --- semi-empirical methods --- chirality --- Ir-modified MoS2 --- decomposition components of SF6 --- adsorption and sensing --- atomistic simulation --- core–shell bi-magnetic nanoparticles --- Monte Carlo simulation --- interfacial exchange --- terahertz --- graphene --- plasmons --- Drude absorption --- polarization conversion --- yield surface --- plastic flow --- crystal plasticity --- polycrystalline aluminum --- dipeptides --- helical structures --- molecular modeling --- dipole moments --- tunnel junction --- machine learning --- III-nitride --- hydroxyapatite --- modeling --- density functional theory --- defects --- vacancies --- substitutions --- structural and optical properties --- band gap --- electronic density of states --- nanomaterials --- plasmon-induced transparency --- strontium titanate --- slow light --- iron doping --- hydroxyapatite bioceramics --- hybrid density functional --- X-ray absorption spectroscopy --- phenylalanine --- protein secondary structure --- optoelectronic devices --- nanostructured polymer film --- antireflection coating --- finite-difference time-domain method --- ferroelectrics --- heterostructures --- domains --- negative capacitance

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This Special Issue focuses on computational detailed studies (simulation, modeling, and calculations) of the structures, main properties, and peculiarities of the various nanomaterials (nanocrystals, nanoparticles, nanolayers, nanofibers, nanotubes, etc.) based on various elements, including organic and biological components, such as amino acids and peptides. For many practical applications in nanoelectronics., such materials as ferroelectrics and ferromagnetics, having switching parameters (polarization, magnetization), are highly requested, and simulation of dynamics and kinetics of their switching are a very important task. An important task for these studies is computer modeling and computational research of the properties on the various composites of the other nanostructures with polymeric ferroelectrics and with different graphene-like 2-dimensional structures. A wide range of contemporary computational methods and software are used in all these studies.

single nanowires --- silicon --- dual shells --- off-resonance --- absorption --- photocurrent --- magnetism --- transition-metal oxide clusters --- DFT calculations --- structure --- electronic properties --- LGD theory --- polarization --- nanoscale ferroelectrics --- kinetics --- homogeneous switching --- computer simulation --- fitting --- diphenylalanine --- peptide nanotubes --- self-assembly --- water molecules --- DFT --- molecular modelling --- semi-empirical methods --- chirality --- Ir-modified MoS2 --- decomposition components of SF6 --- adsorption and sensing --- atomistic simulation --- core–shell bi-magnetic nanoparticles --- Monte Carlo simulation --- interfacial exchange --- terahertz --- graphene --- plasmons --- Drude absorption --- polarization conversion --- yield surface --- plastic flow --- crystal plasticity --- polycrystalline aluminum --- dipeptides --- helical structures --- molecular modeling --- dipole moments --- tunnel junction --- machine learning --- III-nitride --- hydroxyapatite --- modeling --- density functional theory --- defects --- vacancies --- substitutions --- structural and optical properties --- band gap --- electronic density of states --- nanomaterials --- plasmon-induced transparency --- strontium titanate --- slow light --- iron doping --- hydroxyapatite bioceramics --- hybrid density functional --- X-ray absorption spectroscopy --- phenylalanine --- protein secondary structure --- optoelectronic devices --- nanostructured polymer film --- antireflection coating --- finite-difference time-domain method --- ferroelectrics --- heterostructures --- domains --- negative capacitance

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Nowadays, 25% of materials used are metals, and this ratio is not expected to decrease, as metals are indispensable for many applications due to their high resistance to temperature. The only handicap of metals is their relatively higher density with respect to composites. Lightening of metallic structures is possible in three ways: (i) employing low density metals, (ii) developing new ones, and (iii) increasing the yield strength of existing high-density metals. The Laboratory of Excellence of the Lorraine University in France, called ‘Design of Alloy Metals for Low-Mass Structures’, is working to lighten metal via metallurgical means. Two leading research laboratories compose this Laboratory of Excellence within the Lorraine University: the Laboratory of Microstructure Studies and Mechanics of Materials (LEM3), based in Metz, and the Jean Lamour Institute (IJL), located in Nancy. In this Special Issue, they report on some of their major progress in the different fields of metallurgy and mechanics of metallic materials. There are articles in the three major fields of metallurgy: physical, chemical, and mechanical metallurgy. All scales are covered, from atomistic studies to real-scale metallic structures.

History of engineering & technology --- Pd–10Au alloy --- shear compression --- texture --- grain boundary sliding --- TiAl alloys --- dislocation --- twinning --- nanoindentation --- ECCI --- disconnection density --- displacement discontinuity --- crack nucleation --- crack opening displacement --- digital image correlation --- Al-Cu-Li alloys --- titanium aluminides --- grain refinement --- solidification --- inoculation --- TWIP steel --- ECAP --- deformation twinning --- VPSC --- simulation --- industrial ingot --- steel --- dendritic grain size --- titanium --- strain hardening --- anisotropy --- strain heterogeneity --- acoustic emission --- statistical analysis --- collective dislocation dynamics --- Q&amp --- P --- transition carbide --- precipitation --- HEXRD --- TEM --- grain size --- crystal plasticity --- elasto-visco-plastic self-consistent (EVPSC) scheme --- hardening --- dislocation density --- ironmaking --- direct reduction --- iron ore --- DRI --- shaft furnace --- mathematical model --- CO2 emissions --- lattice structures --- porous materials --- 3D surface maps --- finite element --- fatigue --- plasticity --- steel ladle --- non-metallic inclusions --- aggregation --- lateral extrusion ratio --- Finite Element (FE) simulation --- analytical modelling --- plastic flow machining --- back pressure --- polycrystalline β-Ti --- elastic anisotropy --- elastic/plastic incompatibilities --- elasto-viscoplastic self-consistent scheme (EVPSC) --- slip activity --- microsegregation --- gas tungsten arc welding --- directional solidification --- FM52 filler metal --- ERNiCrFe-7 --- tip undercooling --- rolling --- asymmetric ratio --- thickness reduction per pass --- magnesium powders --- HPT consolidation --- microstructure --- hardness --- H-activation --- high entropy alloy --- crystallographic texture --- groove rolling --- elastic properties --- non-Schmid effects --- Taylor multiscale scheme --- localized necking --- bifurcation theory --- excess nitrogen --- clusters precipitation --- Fe–Si and Fe–Cr nitrided alloys --- APT and TEM characterization --- metal matrix composite --- in situ X-ray diffraction --- internal stresses --- phase transformation --- nickel-based single crystal superalloy --- lattice mismatch --- in situ experiments --- X-ray diffractometry --- creep --- dislocations --- diffraction --- fast Fourier transform (FFT)-based method --- discrete green operator --- voxelization artifacts --- sub-voxel method --- simulated diffraction peaks --- scattered intensity --- shape memory alloys --- architected cellular material --- numerical homogenization --- multiscale finite element method --- bainite --- martensite --- isothermal treatment --- mechanical properties --- austenite reconstruction --- variant --- magnesium --- self consistent methods --- modeling --- heterogeneous kinetics --- heat and mass transfer

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This book derives from the Special Issue of the Manufacturing Engineering Society (MES) that was launched as a Special Issue of the journal Materials. The 48 contributions, published in this book, explore the evolution of traditional manufacturing models toward the new requirements of the Manufacturing Industry 4.0 and present cutting-edge advances in the field of Manufacturing Engineering focusing on additive manufacturing and 3D printing, advances and innovations in manufacturing processes, sustainable and green manufacturing, manufacturing systems (machines, equipment and tooling), metrology and quality in manufacturing, Industry 4.0, product lifecycle management (PLM) technologies, and production planning and risks.

History of engineering & technology --- ultrasonic metal welding --- finite element analysis --- temperature distribution --- strength of the joint in tension --- heat flux --- friction --- plastic deformation --- thermocouple --- WEDM --- deep learning --- deep neural networks --- Industry 4.0 --- crash boxes --- joining by forming --- resistance spot-welding --- crashworthiness --- UNS A92024 --- WC–Co --- wear mechanism --- tribology --- adhesion --- laser --- additive manufacturing --- laser beam machining --- laser polishing --- waviness --- roughness --- Inconel 718 --- Ti6Al4V alloy --- chip geometry --- dry machining --- parametric models --- turning --- UNS A92024-T3 --- corrosion --- surface integrity --- Ra --- residual stress --- functional performance --- ultimate tensile strength --- wear --- drilling --- machining --- dry drilling --- stack --- FML --- CFRP --- UNS A97075 --- stepped shaft --- cross wedge rolling --- plastic flow kinetic theories --- variable cone angle billets --- near-net forming --- gear manufacturing --- roughness model --- multitasking machines/multiprocess machines --- NEXAFS --- soft X-rays SXR --- SXR absorption spectroscopy --- respiratory movement --- lung tumor --- radiotherapy --- arduino --- cancer treatment --- linear accelerator --- ultrasonic molding --- microchannel --- thin-wall plate --- replicability --- polystyrene --- medical devices --- FDM --- PLA --- material color --- pigmentation --- extrusion temperature --- humidity --- micro-manufacturing --- manufacturing systems --- production planning --- polylactide (PLA) --- acrylonitrile butadiene styrene (ABS) --- tensile behaviour --- layer height --- infill density --- layer orientation --- cybernetics --- system dynamics --- production management --- maintenance management --- Viable System Model --- automotive industry --- hybrid components stack --- titanium --- magnesium --- repair and maintenance operations --- roughness average (Ra) --- ANOVA --- in-process measurement --- geometric accuracy --- grinding process --- tapered roller bearings --- single --- point --- incremental --- forming --- thermoplastics --- biocompatible --- temperature --- process --- parameters --- 3D printing --- correlation coefficients --- fused deposition modeling --- non-parametric tests --- surface roughness --- LMD --- laser metal deposition --- shielding gas --- argon --- helium --- melt pool temperature --- synthetic polymer --- bioprinting --- multi-material microextrusion --- bioink --- Selective Laser Melting --- thermo fluidic --- phase change --- consolidation --- Arbitrary Lagrangean–Eulerian Method --- metallic powder --- basalt fiber reinforced plastic (BFRP) --- delamination --- edge trimming --- tool wear --- scaffold --- PCL --- RepRap --- fused filament fabrication --- three-dimensional --- cell culture --- design --- topological optimization --- cost --- stock --- spare parts --- free-form filament fabrication (FFF) --- robot-assisted polishing --- force signal --- end point detection --- WAAM --- GMAW --- cold metal transfer --- hardness --- mechanical properties --- thermal input --- microstructure --- Synchrotron X-rays --- lithography --- curved substrate --- microstructures --- computed tomography --- surface extraction --- Canny algorithm --- Deriche algorithm --- carbon fiber reinforced polymer --- hole quality characteristics --- geometrical parameters --- roughness parameters --- taper --- heat affected zone --- product lifecycle management (PLM) --- manufacturing problem solving (MPS) --- fault diagnosis --- smart factory --- process failure mode and effect analysis (PFMEA) --- case-based reasoning (CBR) --- hole making --- surface texture --- contact measurement --- optical measurement --- delphi prospection --- education --- employment --- feature-based modeling --- inspection planning --- dimensional and geometrical specification --- process specification --- collaborative and integrated product-process development --- modeling --- laser processing --- simulation --- pyrometer --- aluminum --- brain --- rapid prototyping --- atlas --- rat --- magnetic resonance imaging --- educative model --- scaffolds --- porosity --- pore size --- multiobjective optimization --- priority dispatching rules --- simulation optimization --- job shop scheduling --- flexible manufacturing systems --- service-oriented manufacturing systems --- maintenance --- aircrat engine repair and overhaul (MRO) --- incremental forming --- FEM --- force prediction --- numerical model --- semi-analytical model --- specific energy --- welding distortion --- LSND (low stress no distortion) --- htTTT --- model validation --- Compression-After-Impact testing --- Compression-After-Impact strength --- carbon fiber reinforced plastics --- flat specimen --- AA7075 --- risk assessment --- dangerous substance --- Directive 89/391/EEC --- Directive 2012/18/EU --- ISO 45001:2018 standard --- emerging risk --- major accident --- manufacturing --- occupational accident --- risk management --- manufacturing industry --- bow-tie analysis --- pallet mover accidents --- accident analysis --- safety barriers --- sheet metal forming --- flanging --- hole-flanging --- incremental sheet forming --- Single Point Incremental Forming (SPIF) --- thickness distribution --- additive manufacturing and 3D printing --- advances and innovations in manufacturing processes --- sustainable and green manufacturing --- manufacturing systems: machines --- equipment and tooling --- metrology and quality in manufacturing --- product lifecycle management (PLM) technologies --- risks