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The Journal of Manufacturing and Materials Processing (JMMP) aims to provide an international forum for the documentation and dissemination of recent, original, and significant research studies in the analysis of processes, equipment, systems, and materials related to material heat treatment, solidification, deformation, addition, removal, welding, and accretion for the industrial fabrication and production of parts, components, and products. The JMMP was established in 2017 and has published more than 300 contributions. It has been listed in the ESCI, Inspec (IET), and Scopus (Elsevier). In celebration of the anniversary of the JMMP, the Editorial Office has put together this Special Issue, which includes several representative papers that reflect the vibrant growth and dynamic trend of research in this field.

History of engineering & technology --- metal additive manufacturing --- analytical model --- temperature prediction --- FEA --- melt pool geometry --- sustainability --- bimetallic object --- cutting force --- uncertainty --- machining power --- precision injection molding --- quality control --- process monitoring --- process fingerprint --- product fingerprint --- flexible abrasive tools --- finishing --- rounding edge --- superalloys --- coordinate metrology --- on-machine measurement --- ball dome artefact --- calibration --- machine tool --- additive manufacturing --- laser powder bed fusion --- process optimization --- orthogonal cutting --- brittle materials --- cohesive elements --- nickel-based superalloys --- high temperature mechanical properties --- creep resistance --- fatigue --- SLM --- AlSi10Mg --- post treatment --- residual stress --- surface roughness --- discrete element method --- seed cracks --- meso-micro machining --- micro abrasive-waterjet technology --- stacking cutting --- micro milling --- taper compensation --- flexure --- subtractive machining --- additive machining --- micrograph

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The demands on innovative materials given by the ever-increasing requirements of contemporary industry require the use of high-performance engineering materials. The properties of materials and alloys are a result of their structures, which can primarily be affected by the preparation/production process. However, the production of materials featuring high levels of the required properties without the necessity to use costly alloying elements or time- and money-demanding heat treatment technologies typically used to enhance the mechanical properties of metallic materials (especially specific strength) still remains a challenge. The introduction of thermomechanical treatment represented a breakthrough in grain refinement, consequently leading to significant improvement of the mechanical properties of metallic materials. Contrary to conventional production technologies, the main advantage of such treatment is the possibility to precisely control structural phenomena that affect the final mechanical and utility properties. Thermomechanical treatment can only decrease the grain size to the scale of microns. However, further research devoted to pushing materials’ performance beyond the limits led to the introduction of severe plastic deformation (SPD) methods providing producers with the ability to acquire ultra-fine-grained and nanoscaled metallic materials with superior mechanical properties. SPD methods can be performed with the help of conventional forming equipment; however, many newly designed processes have also been introduced.

crack nucleation --- fatigue --- plastic deformation --- surface topography --- high-entropy alloy --- powder metallurgy --- microstructure --- spring steel --- heat treatment --- retained austenite --- Mössbauer spectroscopy --- neutron diffraction --- tungsten heavy alloy --- rotary swaging --- finite element analysis --- deformation behaviour --- residual stress --- austenitic steel 08Ch18N10T --- cyclic plasticity --- cyclic hardening --- experiments --- finite element method --- low-cycle fatigue --- tungsten --- dislocations --- microstrain --- twist channel angular pressing --- severe plastic deformation --- mechanical properties --- disintegrator --- microscopy --- wear --- high energy milling --- cement --- sintering --- quenching --- abrasive waterjet --- machining --- traverse speed --- material structure --- material properties --- cutting force --- deformation force --- clad composite --- effective strain --- heat-resistant steel --- cast steel --- microalloying --- strengthening mechanism --- abrasive water jet cutting --- surface roughness --- hardness --- tensile strength --- functional properties --- metallic systems --- mechanical processing --- structural phenomena

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• Reference Manager
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The demands on innovative materials given by the ever-increasing requirements of contemporary industry require the use of high-performance engineering materials. The properties of materials and alloys are a result of their structures, which can primarily be affected by the preparation/production process. However, the production of materials featuring high levels of the required properties without the necessity to use costly alloying elements or time- and money-demanding heat treatment technologies typically used to enhance the mechanical properties of metallic materials (especially specific strength) still remains a challenge. The introduction of thermomechanical treatment represented a breakthrough in grain refinement, consequently leading to significant improvement of the mechanical properties of metallic materials. Contrary to conventional production technologies, the main advantage of such treatment is the possibility to precisely control structural phenomena that affect the final mechanical and utility properties. Thermomechanical treatment can only decrease the grain size to the scale of microns. However, further research devoted to pushing materials’ performance beyond the limits led to the introduction of severe plastic deformation (SPD) methods providing producers with the ability to acquire ultra-fine-grained and nanoscaled metallic materials with superior mechanical properties. SPD methods can be performed with the help of conventional forming equipment; however, many newly designed processes have also been introduced.

History of engineering & technology --- crack nucleation --- fatigue --- plastic deformation --- surface topography --- high-entropy alloy --- powder metallurgy --- microstructure --- spring steel --- heat treatment --- retained austenite --- Mössbauer spectroscopy --- neutron diffraction --- tungsten heavy alloy --- rotary swaging --- finite element analysis --- deformation behaviour --- residual stress --- austenitic steel 08Ch18N10T --- cyclic plasticity --- cyclic hardening --- experiments --- finite element method --- low-cycle fatigue --- tungsten --- dislocations --- microstrain --- twist channel angular pressing --- severe plastic deformation --- mechanical properties --- disintegrator --- microscopy --- wear --- high energy milling --- cement --- sintering --- quenching --- abrasive waterjet --- machining --- traverse speed --- material structure --- material properties --- cutting force --- deformation force --- clad composite --- effective strain --- heat-resistant steel --- cast steel --- microalloying --- strengthening mechanism --- abrasive water jet cutting --- surface roughness --- hardness --- tensile strength --- functional properties --- metallic systems --- mechanical processing --- structural phenomena --- crack nucleation --- fatigue --- plastic deformation --- surface topography --- high-entropy alloy --- powder metallurgy --- microstructure --- spring steel --- heat treatment --- retained austenite --- Mössbauer spectroscopy --- neutron diffraction --- tungsten heavy alloy --- rotary swaging --- finite element analysis --- deformation behaviour --- residual stress --- austenitic steel 08Ch18N10T --- cyclic plasticity --- cyclic hardening --- experiments --- finite element method --- low-cycle fatigue --- tungsten --- dislocations --- microstrain --- twist channel angular pressing --- severe plastic deformation --- mechanical properties --- disintegrator --- microscopy --- wear --- high energy milling --- cement --- sintering --- quenching --- abrasive waterjet --- machining --- traverse speed --- material structure --- material properties --- cutting force --- deformation force --- clad composite --- effective strain --- heat-resistant steel --- cast steel --- microalloying --- strengthening mechanism --- abrasive water jet cutting --- surface roughness --- hardness --- tensile strength --- functional properties --- metallic systems --- mechanical processing --- structural phenomena

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This book derives from the Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019) that has been launched as a joint issue of the journals Materials and Applied Sciences. The 29 contributions published in this Special Issue of Materials 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 of new materials; metrology and quality in manufacturing; industry 4.0; design, modeling, and simulation in manufacturing engineering; and manufacturing engineering and society. Among them, the topic "Additive Manufacturing and 3D Printing" has attracted a large number of contributions in this journal due to its widespread popularity and potential.

History of engineering & technology --- Bayesian inference --- control chart --- dynamic methodology --- hidden Markov chain --- occupational accident --- risk assessment --- risk control --- risk management --- Fused Deposition Modeling --- roughness --- Polylactic Acid --- print orientation angle --- build angle --- titanium alloys --- sustainable lubrication --- cryogenic lubrication --- MQL --- OD grinding --- CBN --- dressing --- rotary dresser --- wear --- CVD diamond --- additive manufacturing --- 3D printing --- fused filament fabrication --- flexural properties --- fatigue --- PLA --- cements --- ballast waste --- cornubianite --- mechanical properties --- Spain --- joining --- forming --- sheet–tube connections --- experimentation --- modelling and simulation --- quality enhancement --- process parameters --- design optimization --- calibration artifact --- kinematic support --- dimensional metrology --- machine tool --- length measurement --- rapid prototyping --- efficiency --- printing time --- experimental model --- prepeg --- carbon fiber --- Raman spectroscopy --- AWJM --- waterjet --- CFRP --- kerf taper --- surface quality --- metal forming --- bi-metallic --- cylinders --- compression --- finite elements --- microscopy --- cold expansion --- mandrel --- cold-forming --- swaging --- shipbuilding --- LARG paradigm --- supply chain --- coordinate metrology --- confocal microscopy --- measurement --- calibration --- traceability --- uncertainty --- quality assessment --- digital image correlation --- indentation process --- incremental forming --- finite element method --- material flow --- AWJM (Abrasive waterjet machining) --- CFRTP (Carbon fiber-reinforced thermoplastics) --- RSM (response surface methodology) --- ANOVA (Analysis of variance) --- C/TPU (carbon/polyurethane) --- image processing --- position control --- accuracy --- micromachines --- position compensation --- inverse conical perspective --- micromanufacturing --- manufacturing systems --- mechatronics --- FDM --- bimodulus materials --- standards --- finite element analysis (FEA) --- ABS --- anisotropy --- infill density --- layer orientation --- ASTM D638–14:2014 --- ISO 527–2:2012 --- grounding electrodes in two-layered soils --- step and touch potentials --- step potentials upper bound --- orthoses --- prostheses --- fused deposition modeling --- laminated object manufacturing --- selective laser sintering --- laser tracker --- Monte Carlo method --- verification --- green manufacturing --- sustainability metrics --- cleaner product life cycle --- material removal processes --- hybrid components --- light alloys --- magnesium --- aluminum --- drilling --- dry machining --- cold compressed air --- lubrication and cooling systems --- arithmetical mean roughness --- Ra --- average maximum height --- Rz --- repair and maintenance operations --- fused deposition modelling --- composites --- polymer injection moulding --- polyamide --- metal matrix composite --- Al-SiC --- microstructure --- machining --- cooling compressed air --- thrust force --- energy --- material removed rate --- PEEK-GF30 --- multi-response optimization --- sustainable manufacturing --- metrology --- industry 4.0 --- modeling and simulation --- quality in manufacturing --- technological and industrial heritage --- Bayesian inference --- control chart --- dynamic methodology --- hidden Markov chain --- occupational accident --- risk assessment --- risk control --- risk management --- Fused Deposition Modeling --- roughness --- Polylactic Acid --- print orientation angle --- build angle --- titanium alloys --- sustainable lubrication --- cryogenic lubrication --- MQL --- OD grinding --- CBN --- dressing --- rotary dresser --- wear --- CVD diamond --- additive manufacturing --- 3D printing --- fused filament fabrication --- flexural properties --- fatigue --- PLA --- cements --- ballast waste --- cornubianite --- mechanical properties --- Spain --- joining --- forming --- sheet–tube connections --- experimentation --- modelling and simulation --- quality enhancement --- process parameters --- design optimization --- calibration artifact --- kinematic support --- dimensional metrology --- machine tool --- length measurement --- rapid prototyping --- efficiency --- printing time --- experimental model --- prepeg --- carbon fiber --- Raman spectroscopy --- AWJM --- waterjet --- CFRP --- kerf taper --- surface quality --- metal forming --- bi-metallic --- cylinders --- compression --- finite elements --- microscopy --- cold expansion --- mandrel --- cold-forming --- swaging --- shipbuilding --- LARG paradigm --- supply chain --- coordinate metrology --- confocal microscopy --- measurement --- calibration --- traceability --- uncertainty --- quality assessment --- digital image correlation --- indentation process --- incremental forming --- finite element method --- material flow --- AWJM (Abrasive waterjet machining) --- CFRTP (Carbon fiber-reinforced thermoplastics) --- RSM (response surface methodology) --- ANOVA (Analysis of variance) --- C/TPU (carbon/polyurethane) --- image processing --- position control --- accuracy --- micromachines --- position compensation --- inverse conical perspective --- micromanufacturing --- manufacturing systems --- mechatronics --- FDM --- bimodulus materials --- standards --- finite element analysis (FEA) --- ABS --- anisotropy --- infill density --- layer orientation --- ASTM D638–14:2014 --- ISO 527–2:2012 --- grounding electrodes in two-layered soils --- step and touch potentials --- step potentials upper bound --- orthoses --- prostheses --- fused deposition modeling --- laminated object manufacturing --- selective laser sintering --- laser tracker --- Monte Carlo method --- verification --- green manufacturing --- sustainability metrics --- cleaner product life cycle --- material removal processes --- hybrid components --- light alloys --- magnesium --- aluminum --- drilling --- dry machining --- cold compressed air --- lubrication and cooling systems --- arithmetical mean roughness --- Ra --- average maximum height --- Rz --- repair and maintenance operations --- fused deposition modelling --- composites --- polymer injection moulding --- polyamide --- metal matrix composite --- Al-SiC --- microstructure --- machining --- cooling compressed air --- thrust force --- energy --- material removed rate --- PEEK-GF30 --- multi-response optimization --- sustainable manufacturing --- metrology --- industry 4.0 --- modeling and simulation --- quality in manufacturing --- technological and industrial heritage

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book derives from the Special Issue of the Manufacturing Engineering Society 2019 (SIMES-2019) that has been launched as a joint issue of the journals Materials and Applied Sciences. The 29 contributions published in this Special Issue of Materials 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 of new materials; metrology and quality in manufacturing; industry 4.0; design, modeling, and simulation in manufacturing engineering; and manufacturing engineering and society. Among them, the topic "Additive Manufacturing and 3D Printing" has attracted a large number of contributions in this journal due to its widespread popularity and potential.

Bayesian inference --- control chart --- dynamic methodology --- hidden Markov chain --- occupational accident --- risk assessment --- risk control --- risk management --- Fused Deposition Modeling --- roughness --- Polylactic Acid --- print orientation angle --- build angle --- titanium alloys --- sustainable lubrication --- cryogenic lubrication --- MQL --- OD grinding --- CBN --- dressing --- rotary dresser --- wear --- CVD diamond --- additive manufacturing --- 3D printing --- fused filament fabrication --- flexural properties --- fatigue --- PLA --- cements --- ballast waste --- cornubianite --- mechanical properties --- Spain --- joining --- forming --- sheet–tube connections --- experimentation --- modelling and simulation --- quality enhancement --- process parameters --- design optimization --- calibration artifact --- kinematic support --- dimensional metrology --- machine tool --- length measurement --- rapid prototyping --- efficiency --- printing time --- experimental model --- prepeg --- carbon fiber --- Raman spectroscopy --- AWJM --- waterjet --- CFRP --- kerf taper --- surface quality --- metal forming --- bi-metallic --- cylinders --- compression --- finite elements --- microscopy --- cold expansion --- mandrel --- cold-forming --- swaging --- shipbuilding --- LARG paradigm --- supply chain --- coordinate metrology --- confocal microscopy --- measurement --- calibration --- traceability --- uncertainty --- quality assessment --- digital image correlation --- indentation process --- incremental forming --- finite element method --- material flow --- AWJM (Abrasive waterjet machining) --- CFRTP (Carbon fiber-reinforced thermoplastics) --- RSM (response surface methodology) --- ANOVA (Analysis of variance) --- C/TPU (carbon/polyurethane) --- image processing --- position control --- accuracy --- micromachines --- position compensation --- inverse conical perspective --- micromanufacturing --- manufacturing systems --- mechatronics --- FDM --- bimodulus materials --- standards --- finite element analysis (FEA) --- ABS --- anisotropy --- infill density --- layer orientation --- ASTM D638–14:2014 --- ISO 527–2:2012 --- grounding electrodes in two-layered soils --- step and touch potentials --- step potentials upper bound --- orthoses --- prostheses --- fused deposition modeling --- laminated object manufacturing --- selective laser sintering --- laser tracker --- Monte Carlo method --- verification --- green manufacturing --- sustainability metrics --- cleaner product life cycle --- material removal processes --- hybrid components --- light alloys --- magnesium --- aluminum --- drilling --- dry machining --- cold compressed air --- lubrication and cooling systems --- arithmetical mean roughness --- Ra --- average maximum height --- Rz --- repair and maintenance operations --- fused deposition modelling --- composites --- polymer injection moulding --- polyamide --- metal matrix composite --- Al-SiC --- microstructure --- machining --- cooling compressed air --- thrust force --- energy --- material removed rate --- PEEK-GF30 --- multi-response optimization --- sustainable manufacturing --- metrology --- industry 4.0 --- modeling and simulation --- quality in manufacturing --- technological and industrial heritage