Emerald gems : a focus on SLM and SLS methods in 3D printing
A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry
Format: |
E-Book |
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Sprache: |
Englisch |
Erschienen: |
Bingley: Emerald ; 2015 |
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Schlagwörter: | |
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Schlagwörter: |
Umfang: |
1 Online-Ressource (v, 210 Seiten) ; Illustrationen, Diagramme |
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Reihe: |
Emerald Gems Ser. |
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Links: | |
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ISBN: |
978-1-78560-864-3 |
Katalog-ID: |
1030961123 |
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246 | 3 | 3 | |a A focus on SLM and SLS methods in 3D printing |
264 | 1 | |a Bingley |b Emerald |c 2015 | |
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520 | |a A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry | ||
520 | |a Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References | ||
520 | |a Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results | ||
520 | |a 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References | ||
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Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References Three-dimensional printing Lasers-Industrial applications Three-dimensional printing. Lasers-Industrial applications Electronic books s (DE-588)1032223197 (DE-627)738076880 (DE-576)379916150 3D-Druck gnd s (DE-588)4139080-5 (DE-627)105637955 (DE-576)209691409 Laserbearbeitung gnd s (DE-588)4047840-3 (DE-627)104377178 (DE-576)209075120 Pulvermetallurgie gnd (DE-627) s (DE-588)4389159-7 (DE-627)188771107 (DE-576)211925284 Rapid Prototyping Fertigung gnd s (DE-588)4691530-8 (DE-627)312941161 (DE-576)215084004 Laserstrahlsintern gnd (DE-627) 9781785608650 Erscheint auch als Druck-Ausgabe 9781785608650 https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4723657 X:EBC Aggregator lizenzpflichtig Volltext ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 GBV_ILN_2027 ISIL_DE-105 GBV_ILN_2148 ISIL_DE-950 BO 045F 621.988 370 01 4370 3976600016 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845510315 00 --%%-- --%%-- --%%-- n l01 30-01-21 2027 01 DE-105 3796381847 00 --%%-- --%%-- n --%%-- 1-user license / Campuslizenz l01 10-11-20 2148 01 DE-950 407321389X 00 --%%-- eBook ProQuest --%%-- n PDA-Angebot - nur für Hochschulangehörige der HfWU l01 25-02-22 370 01 4370 E-Book: Zugriff im HCU-Netz. 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spelling |
9781785608643 electronic bk. 978-1-78560-864-3 (DE-627)1030961123 (DE-599)GBV1030961123 (EBC)EBC4723657 (EBL)EBL4723657 (EBP)035208686 DE-627 eng DE-627 rda eng XA-GB TA401-492 621.988 Emerald gems a focus on SLM and SLS methods in 3D printing A focus on SLM and SLS methods in 3D printing Bingley Emerald 2015 1 Online-Ressource (v, 210 Seiten) Illustrationen, Diagramme Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Emerald Gems Ser. A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References Three-dimensional printing Lasers-Industrial applications Three-dimensional printing. Lasers-Industrial applications Electronic books s (DE-588)1032223197 (DE-627)738076880 (DE-576)379916150 3D-Druck gnd s (DE-588)4139080-5 (DE-627)105637955 (DE-576)209691409 Laserbearbeitung gnd s (DE-588)4047840-3 (DE-627)104377178 (DE-576)209075120 Pulvermetallurgie gnd (DE-627) s (DE-588)4389159-7 (DE-627)188771107 (DE-576)211925284 Rapid Prototyping Fertigung gnd s (DE-588)4691530-8 (DE-627)312941161 (DE-576)215084004 Laserstrahlsintern gnd (DE-627) 9781785608650 Erscheint auch als Druck-Ausgabe 9781785608650 https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4723657 X:EBC Aggregator lizenzpflichtig Volltext ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 GBV_ILN_2027 ISIL_DE-105 GBV_ILN_2148 ISIL_DE-950 BO 045F 621.988 370 01 4370 3976600016 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845510315 00 --%%-- --%%-- --%%-- n l01 30-01-21 2027 01 DE-105 3796381847 00 --%%-- --%%-- n --%%-- 1-user license / Campuslizenz l01 10-11-20 2148 01 DE-950 407321389X 00 --%%-- eBook ProQuest --%%-- n PDA-Angebot - nur für Hochschulangehörige der HfWU l01 25-02-22 370 01 4370 E-Book: Zugriff im HCU-Netz. 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9781785608643 electronic bk. 978-1-78560-864-3 (DE-627)1030961123 (DE-599)GBV1030961123 (EBC)EBC4723657 (EBL)EBL4723657 (EBP)035208686 DE-627 eng DE-627 rda eng XA-GB TA401-492 621.988 Emerald gems a focus on SLM and SLS methods in 3D printing A focus on SLM and SLS methods in 3D printing Bingley Emerald 2015 1 Online-Ressource (v, 210 Seiten) Illustrationen, Diagramme Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Emerald Gems Ser. A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References Three-dimensional printing Lasers-Industrial applications Three-dimensional printing. Lasers-Industrial applications Electronic books s (DE-588)1032223197 (DE-627)738076880 (DE-576)379916150 3D-Druck gnd s (DE-588)4139080-5 (DE-627)105637955 (DE-576)209691409 Laserbearbeitung gnd s (DE-588)4047840-3 (DE-627)104377178 (DE-576)209075120 Pulvermetallurgie gnd (DE-627) s (DE-588)4389159-7 (DE-627)188771107 (DE-576)211925284 Rapid Prototyping Fertigung gnd s (DE-588)4691530-8 (DE-627)312941161 (DE-576)215084004 Laserstrahlsintern gnd (DE-627) 9781785608650 Erscheint auch als Druck-Ausgabe 9781785608650 https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4723657 X:EBC Aggregator lizenzpflichtig Volltext ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 GBV_ILN_2027 ISIL_DE-105 GBV_ILN_2148 ISIL_DE-950 BO 045F 621.988 370 01 4370 3976600016 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845510315 00 --%%-- --%%-- --%%-- n l01 30-01-21 2027 01 DE-105 3796381847 00 --%%-- --%%-- n --%%-- 1-user license / Campuslizenz l01 10-11-20 2148 01 DE-950 407321389X 00 --%%-- eBook ProQuest --%%-- n PDA-Angebot - nur für Hochschulangehörige der HfWU l01 25-02-22 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4723657 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4723657 2027 01 DE-105 https://ebookcentral.proquest.com/lib/freiberg-ebooks/detail.action?docID=4723657 2148 01 DE-950 https://ebookcentral.proquest.com/lib/hfwu/detail.action?docID=4723657 2027 01 DE-105 00 s ebook 2027 01 DE-105 00 (DE-627)1292113162 DK 621.7 2027 01 DE-105 00 (DE-627)1479647675 DK 621.71/.79 2027 01 DE-105 00 (DE-627)1292042710 QP 210 2027 01 DE-105 00 (DE-627)1292112433 QP 624 2027 01 DE-105 00 (DE-627)1293135747 DK 66.0 2027 01 DE-105 00 (DE-627)1292186879 DK 620.22 2027 01 DE-105 00 (DE-627)1292362014 DK 620.1 2027 01 DE-105 00 (DE-627)1292186321 DK 621.762 2027 01 DE-105 00 (DE-627)1299267947 DK 621.9.048 370 01 4370 olr-dda ebc |
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9781785608643 electronic bk. 978-1-78560-864-3 (DE-627)1030961123 (DE-599)GBV1030961123 (EBC)EBC4723657 (EBL)EBL4723657 (EBP)035208686 DE-627 eng DE-627 rda eng XA-GB TA401-492 621.988 Emerald gems a focus on SLM and SLS methods in 3D printing A focus on SLM and SLS methods in 3D printing Bingley Emerald 2015 1 Online-Ressource (v, 210 Seiten) Illustrationen, Diagramme Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Emerald Gems Ser. A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References Three-dimensional printing Lasers-Industrial applications Three-dimensional printing. Lasers-Industrial applications Electronic books s (DE-588)1032223197 (DE-627)738076880 (DE-576)379916150 3D-Druck gnd s (DE-588)4139080-5 (DE-627)105637955 (DE-576)209691409 Laserbearbeitung gnd s (DE-588)4047840-3 (DE-627)104377178 (DE-576)209075120 Pulvermetallurgie gnd (DE-627) s (DE-588)4389159-7 (DE-627)188771107 (DE-576)211925284 Rapid Prototyping Fertigung gnd s (DE-588)4691530-8 (DE-627)312941161 (DE-576)215084004 Laserstrahlsintern gnd (DE-627) 9781785608650 Erscheint auch als Druck-Ausgabe 9781785608650 https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4723657 X:EBC Aggregator lizenzpflichtig Volltext ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 GBV_ILN_2027 ISIL_DE-105 GBV_ILN_2148 ISIL_DE-950 BO 045F 621.988 370 01 4370 3976600016 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845510315 00 --%%-- --%%-- --%%-- n l01 30-01-21 2027 01 DE-105 3796381847 00 --%%-- --%%-- n --%%-- 1-user license / Campuslizenz l01 10-11-20 2148 01 DE-950 407321389X 00 --%%-- eBook ProQuest --%%-- n PDA-Angebot - nur für Hochschulangehörige der HfWU l01 25-02-22 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von auβerhalb nur für HCU-Angehörige möglich https://ebookcentral.proquest.com/lib/hcuhamburg-ebooks/detail.action?docID=4723657 2021 01 DE-289 https://ebookcentral.proquest.com/lib/kiz-uniulm/detail.action?docID=4723657 2027 01 DE-105 https://ebookcentral.proquest.com/lib/freiberg-ebooks/detail.action?docID=4723657 2148 01 DE-950 https://ebookcentral.proquest.com/lib/hfwu/detail.action?docID=4723657 2027 01 DE-105 00 s ebook 2027 01 DE-105 00 (DE-627)1292113162 DK 621.7 2027 01 DE-105 00 (DE-627)1479647675 DK 621.71/.79 2027 01 DE-105 00 (DE-627)1292042710 QP 210 2027 01 DE-105 00 (DE-627)1292112433 QP 624 2027 01 DE-105 00 (DE-627)1293135747 DK 66.0 2027 01 DE-105 00 (DE-627)1292186879 DK 620.22 2027 01 DE-105 00 (DE-627)1292362014 DK 620.1 2027 01 DE-105 00 (DE-627)1292186321 DK 621.762 2027 01 DE-105 00 (DE-627)1299267947 DK 621.9.048 370 01 4370 olr-dda ebc |
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9781785608643 electronic bk. 978-1-78560-864-3 (DE-627)1030961123 (DE-599)GBV1030961123 (EBC)EBC4723657 (EBL)EBL4723657 (EBP)035208686 DE-627 eng DE-627 rda eng XA-GB TA401-492 621.988 Emerald gems a focus on SLM and SLS methods in 3D printing A focus on SLM and SLS methods in 3D printing Bingley Emerald 2015 1 Online-Ressource (v, 210 Seiten) Illustrationen, Diagramme Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Emerald Gems Ser. A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References Three-dimensional printing Lasers-Industrial applications Three-dimensional printing. Lasers-Industrial applications Electronic books s (DE-588)1032223197 (DE-627)738076880 (DE-576)379916150 3D-Druck gnd s (DE-588)4139080-5 (DE-627)105637955 (DE-576)209691409 Laserbearbeitung gnd s (DE-588)4047840-3 (DE-627)104377178 (DE-576)209075120 Pulvermetallurgie gnd (DE-627) s (DE-588)4389159-7 (DE-627)188771107 (DE-576)211925284 Rapid Prototyping Fertigung gnd s (DE-588)4691530-8 (DE-627)312941161 (DE-576)215084004 Laserstrahlsintern gnd (DE-627) 9781785608650 Erscheint auch als Druck-Ausgabe 9781785608650 https://ebookcentral.proquest.com/lib/kxp/detail.action?docID=4723657 X:EBC Aggregator lizenzpflichtig Volltext ZDB-30-PQE GBV_ILN_370 ISIL_DE-1373 SYSFLAG_1 GBV_KXP SSG-OLC-PHA GBV_ILN_2021 ISIL_DE-289 GBV_ILN_2027 ISIL_DE-105 GBV_ILN_2148 ISIL_DE-950 BO 045F 621.988 370 01 4370 3976600016 olr-dda ebc Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 09-09-21 2021 01 DE-289 3845510315 00 --%%-- --%%-- --%%-- n l01 30-01-21 2027 01 DE-105 3796381847 00 --%%-- --%%-- n --%%-- 1-user license / Campuslizenz l01 10-11-20 2148 01 DE-950 407321389X 00 --%%-- eBook ProQuest --%%-- n PDA-Angebot - nur für Hochschulangehörige der HfWU l01 25-02-22 370 01 4370 E-Book: Zugriff im HCU-Netz. 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Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. 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Emerald gems a focus on SLM and SLS methods in 3D printing |
abstract |
A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References |
abstractGer |
A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References |
abstract_unstemmed |
A Focus on SLM and SLS Methods in 3D Printing is an indispensable collection of articles for anyone involved in additive manufacturing - from academics and researchers through to engineers and managers within the manufacturing industry Front Cover -- Emerald Gems: A Focus on SLM and SLS Methods in 3D Printing -- Copyright page -- Contents -- Preface -- Ductility of a Ti-6Al-4V Alloy Produced by Selective Laser Melting of Prealloyed Powders -- 1. Introduction -- 2. Technologies and Experimental Procedures -- 2.1 The SLM Process -- 2.2 Chemical and Microstructural Analysis -- 2.3 Mechanical Testing -- 3. Results and Discussion -- 4. Conclusions -- References -- About the Authors -- The Investigation of the Influence of Laser Re-melting on Density, Surface Quality and Microstructure of Selective Laser Melting Parts -- 1. Introduction -- 2. Experimental Procedure -- 3. Experimental Results and Discussion -- 3.1 Density Improvement -- 3.2 Surface Quality Improvement -- 3.2.1 Results obtained with stainless steel 316L -- 3.2.2 Results obtained with Ti6Al4V -- 3.2.3 Edge-effect -- 3.3 Microhardness -- 3.4 Microstructural Analysis -- 3.4.1 Laser re-melting after each layer -- 3.4.2 Laser surface re-melting (LSR) -- 4. Conclusions -- References -- Effect of Selective Laser Melting Layout on the Quality of Stainless Steel Parts -- 1. Introduction -- 2. Material and Experimental Procedure -- 3. Results and Discussion -- 3.1 Primary Inspections on Quality of SLM Process -- 3.2 Mechanical Properties Investigations -- 3.3 Cross Sectional Analyses -- 4. Conclusions -- References -- The Effect of Processing Parameters on Characteristics of Selective Laser Sintering Dental Glass-Ceramic Powder -- 1. Introduction -- 2. Experiments -- 2.1 Experimental Materials -- 2.2 Experimental Methods -- 3. Results and Discussion -- 3.1 Microscopic Morphologies -- 3.2 Effect of Polymer Binder Contents on Part Properties -- 3.3 Analysis of Taguchi's L9 Orthogonal Results -- 3.4 Preheated Temperature -- 3.5 Forming Part Cases -- 4. Conclusions -- References Modeling of Powder Particle Heat Transfer Process in Selective Laser Sintering for Fabricating Tissue Engineering Scaffolds -- 1. Background -- 2. Approach Methodology -- 3. Theoretical Heat Transfer Phenomena at SLS -- 4. SLS Temperature Distribution Analysis -- 4.1 Laser Beam Temperature Distribution Simulation -- 4.2 Temperature Measurement of Stationary Laser Beam Verification -- 5. Verification of Sintered Polymer Powder in SLS -- 6. Correlation of the Heat Tansfer Model of SLS -- 7. Conclusion -- References -- Design, Fabrication, and Evaluation of Negative Stiffness Elements Using SLS -- 1. Introduction -- 2. System Modeling -- 3. Dynamic Testing -- 4. Experimental Results -- 5. Closure -- References -- Factor Analysis of Selective Laser Melting Process Parameters and Geometrical Characteristics of Synthesized Single Tracks -- 1. Introduction -- 2. Materials and Experimental Procedure -- 3. Results and Discussion -- 3.1 Powder Characterization -- 3.2 Factor Analysis of SLM Parameters -- 4. Conclusions -- References -- Isostatic Pressing Assisted Indirect Selective Laser Sintering of Alumina Components -- 1. Introduction -- 2. Analysis of Existing Work -- 3. Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results 4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. Conclusions -- References |
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Powder Metallurgy Processing Flow Chart -- 4. Production and Investigation of the Parts -- 4.1 Powder Processing -- 4.2 Selective Laser Sintering -- 4.3 Cold/QIP -- 4.4 Debinding -- 4.5 Sintering -- 5. Discussion -- 6. Conclusions -- References -- Selective Laser Melting of Inconel 625 Using Pulse Shaping -- 1. Introduction -- 1.1 Selective Laser Melting -- 1.2 Surface Roughness and Part Resolution -- 1.3 Pulse Shaping -- 2. Experimental Methodology and Testing -- 2.1 System Setup -- 2.2 Material Characterization -- 3. Initial Optimization -- 3.1 Parameters and Testing -- 3.2 Optimization Results -- 4. Pulse Shaping Experimentation -- 4.1 Parameters -- 4.2 Pulse Shape Results</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">4.3 Pulse Shape Discussion -- 5. Conclusions -- References -- Multi-objective Optimisation and Multi-criteria Decision Making in SLS Using Evolutionary Approaches -- 1. Introduction -- 2. Related Works -- 3. Multi-objective Optimization Problem -- 3.1 Surface Roughness -- 3.2 Build Time -- 4. Proposed Approach -- 4.1 Evolutionary Optimizers -- MOPSO -- NSGA-II -- 4.2 Performance Comparisons -- Attainment surfaces -- Hypervolume indicator -- 4.3 Local Search -- 5. Decision Making -- Aspiration Point Method -- Marginal Utility Method -- L2-metric -- 6. Experiments -- 7. Results and Discussions -- Group 1 -- Group 2 -- 8. 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