Materials for additive manufacturing:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
London
Elsevier, AP, Academic Press
[2021]
[Wuhan] Huazhong University of Science and Technology Press |
| Schriftenreihe: | 3D printing technology applications
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xiii, 760 Seiten Illustrationen, Diagramme 23 cm |
| ISBN: | 9780128193020 0128193026 |
Internformat
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| 264 | 1 | |a [Wuhan] |b Huazhong University of Science and Technology Press | |
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| adam_text | Contents Foreword 1. x¡ Overview of additive manufacturing technology and materials 1.1 1.2 Research and development status of additive manufacturing technology Research and development status of additive manufacturing materials 1.2.1 1.2.2 1.2.3 2. 1 3 References 3 5 7 7 Polymer materials for additive manufacturing—powder materials 9 2.1 Selective laser sintering processing mechanism of polymer and its composite powder materials 2.1.1 2.1.2 2.1.3 2.2 Heating process of polymer powder materials by laser Mechanism of selective laser sintering of polymer powder materials Influence of properties of polymer and its composite powder materials on selective laser sintering processing Preparation, composition, and characterization of polymers and their composite powder materials 2.2.1 2.2.2 2.2.3 2.3 Polymer materials Metal materials Ceramic materials 1 Preparation of polymer powder materials Composition of selective laser sintering polymer materials Characterization of selective laser sintering polymer materials 9 11 19 24 49 49 53 59 Nylon 12 powder materials 61 2.3.1 2.3.2 62 2.3.3 Preparation process of nylon 12 powder materials Selective laser sintering process characteristics of the nylon 12 powder Performance of nylon 12 powder selective laser sintering parts 73 89 v
vi Contents 2.4 Composite powder material of nylon 12 2.4.1 Composite powder material of nylon 12/rectorite 2.4.2 Nanosilica/nylon 12 composite powder materials 2.4.3 Composite powder material of nylon 12 coated aluminum Nylon 12/copper composite powder material Composite powder material of nylon 12/potassium titanate whisker 2.4.6 Carbon fiber/nylon 12 composite powder material 2.5 Styrene-based amorphous polymer powder materials 2.5.1 Polystyrene powder materials 2.5.2 Styrene—acrylonitrile copolymer powder material 2.5.3 High impact polystyrene powder material 2.6 Polycarbonate powder material 2.6.1 Selective laser sintering process and properties of polycarbonate powder material 2.6.2 Effects of postprocessing on the properties of polycarbonate sintered parts 2.7 Acrylonitrile—butadiene—styrene powder material 2.7.1 Basic characteristics of acrylonitrile—butadienestyrene materials 2.7.2 Sintering performance of acrylonitrile—butadienestyrene powder References 2.4.4 2.4.5 3. Polymer materials for additive manufacturing: liquid materials 3.1 3.2 Overview of stereolithography apparatus formed photopolymer 3.1.1 Stereolithography apparatus material 3.1.2 Stereolithography apparatus reaction mechanism 3.1.3 Characteristic parameters of photopolymer and ultraviolet light source 3.1.4 Characteristics of photopolymer materials and their stereolithography apparatus formability Research on stereolithography apparatus solid materials 3.2.1 Study on benzyl alcohol accelerator in cationic stereolithography apparatus system 3.2.2 Study on iodonium salt and its photoinitiators 3.2.3
Study on stereolithography apparatus kinetics of trimethylene oxide 3.2.4 Study on the preparation and properties of solid materials in cationic systems 3.2.5 Study on the preparation and properties of hybrid system solid materials 3.2.6 Ştudy^on preparation and properties of solid materials in tree-rad i cal system 91 92 98 111 130 138 150 162 163 163 168 176 178 182 184 184 186 189 191 191 195 203 215 218 228 230 240 260 264 279 284
Contents 3.3 Oligomers in stereolithography apparatus solid materials 3.3.1 Polypropylene glycol diglycidylether diacrylate 3.3.2 Low-viscosity urethane acrylate 3.3.3 Oligomer of stereolithography apparatus support material 3.3.4 Synthesis and properties of waterborne urethane acrylate 3.3.5 Synthesis and properties of polyethylene glycol diacrylate 3.3.6 Study on the preparation of support materials by oligomers 3.4 Modified stereolithography apparatus forming materials 3.4.1 Nano-Si02 modified stereolithography apparatus forming material 3.4.2 Toughened photopolymer material of epoxy acrylate 3.4.3 Synthesis and application of a novel alicyclic epoxy acrylate References 4. vii 288 288 293 305 3О6 320 323 329 330 340 349 359 Polymer material for additive manufacturing—filament materials 361 4.1 5. Fused deposition modeling principle and process of polymer filament materials 4.1.1 Fused deposition modeling principle 4.1.2 Analysis of material modeling process 4.1.3 Thermodynamic transformation of polymer processing 4.1.4 Performance requirements for fuse deposition modeling polymer materials 4.2 Modeling materials in fuse deposition modeling 4.2.1 ABS filament 4.2.2 Poly lactic acid filament 4.2.3 Polycarbonate and its composites filaments 4.2.4 Nylon filaments 4.3 Support materials in fuse deposition modeling 4.3.1 Overview of support materials 4.3.2 Break-away support materials 4.3.3 Water-soluble support materials References 371 373 373 378 383 386 387 387 389 395 400 Metal materials for additive manufacturing 403 5.1 Additive manufacturing technologies for metal
materials and the principles 5.1.1 Selective laser melting technology 5.1.2 Wire and arc additive manufacture 361 361 361 366 403 403 407
viii Contents 5.2 6. 409 409 412 415 Forming mechanisms of metal materials 5.2.1 Laser energy transfer 5.2.2 Absorption of laser energy by metal 5.2.3 Absorption of laser by metal powder 5.2.4 Temperature, stress and strain fields in selective laser melting forming process 5.2.5 Dynamics and stability of melting pool 5.3 Metal powder for selective laser melting 5.3.1 Effects of powder particle size on formability 5.3.2 Effects of powder sphericity on formability 5.3.3 Effects of powder oxygen content on formability 5.3.4 Common metal and alloy powder materials for additive manufacturing 5.4 Properties and microstructure characteristics of metal powder for additive manufacturing 5.4.1 Metallurgical characteristics of selective laser melting metal powder 5.4.2 Surface roughness and dimensional accuracy of formed parts by the selective laser melting technology 5.4.3 Microstructure characteristics and mechanical properties of typical metal materials for additive manufacturing 5.5 Metal wire for arc fuse deposition forming 5.5.1 Design and preparation technology of wire materials 5.5.2 Characterization of metal wire properties 5.6 Microstructure and properties of wire and arc additive manufacture 5.6.1 Microstructure and properties of multiaxial pipe joint component 5.6.2 Microstructure and performance of typical repaired components References 588 594 Ceramic materials for additive manufacturing 597 6.1 Additive manufacturing technology and principle of ceramic materials 6.1.1 Stereolithography technology and principles of ceramic slurry 6.1.2 Three-dimensional printing
technology and principle of ceramic powders 6.1.3 Selective laser melting technology and principles of ceramic powders 6.1.4 Laminated objected manufacturing technology and principles of ceramic sheets 6.1.5 Fused deposition modeling technology and principle of ceramic filaments K F 419 436 439 439 450 452 454 455 455 507 545 575 575 578 579 579 597 599 600 601 602 604
Contents Selective laser sintering technology and principles of ceramic powders 6.2 Forming mechanism of the ceramics prepared by selective laser sintering 6.3 Preparation of ceramic materials for selective laser sintering 6.3.1 Ceramic powders and binders for selective laser sintering 6.3.2 Preparation of composite ceramic powders for selective laser sintering 6.3.3 Properties of ceramic composite powders and ceramics prepared by selective laser sintering References ¡x 6.1.6 Application cases of additive manufacturing materials 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 7.10 7.11 7.12 7.13 Application case 1 of additive manufacturing polymer powder material Application case 2 of additive manufacturing polymer powder material Application case 3 of additive manufacturing polymer powder material Application case 1 of additive manufacturing polymer wire material Application case 1 of polymer liquid materials for additive manufacturing Application case 1 of metal powder materials for additive manufacturing 7.6.1 Drum lid 7.6.2 Lid and box Application case 2 of metal powder materials for additive manufacturing Application case 1 of metal wire materials for additive manufacturing 7.8.1 Printing of ultralarge (thin wall) parts 7.8.2 Multimateria! forging die forming 7.8.3 Hot forging die remanufacturing 7.8.4 Part remanufacturing Application case 2 of metal wire materials for additive manufacturing Application case 3 of metal wire materials for additive manufacturing Application case 1 of ceramic powder materials for additive manufacturing Application case 2 of ceramic powder materials
for additive manufacturing Application case 3 of ceramic powder materials for additive materials 605 606 609 609 612 617 645 649 649 650 653 654 656 657 657 660 662 665 666 667 668 669 670 672 673 674 675
x Contents 7.13.1 7.13.2 7.13.3 8. Manufacturing of cordierite ceramic parts Manufacturing of Al203 ceramic parts Manufacturing of SiC ceramic parts Materials for four-dimensional printing 679 8.1 8.2 679 Definition of four-dimensional printing Research and development status of four-dimensional printing materials at home and abroad 8.2.1 Polymers and their composite materials 8.2.2 Metals and their composite materials 8.2.3 Ceramics and their composite materials 8.3 Research progress of our team on four-dimensional printing materials 8.3.1 Cu-AI-Ni-based shape memory alloys 8.3.2 Cu-Zn-Al-based shape memory alloys 8.3.3 Double network hydrogel reinforced by carbon nanotubes 8.3.4 Acrylate-based shape memory polymer References Index 675 676 677 680 680 683 685 686 686 702 710 721 735 741
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| adam_txt |
Contents Foreword 1. x¡ Overview of additive manufacturing technology and materials 1.1 1.2 Research and development status of additive manufacturing technology Research and development status of additive manufacturing materials 1.2.1 1.2.2 1.2.3 2. 1 3 References 3 5 7 7 Polymer materials for additive manufacturing—powder materials 9 2.1 Selective laser sintering processing mechanism of polymer and its composite powder materials 2.1.1 2.1.2 2.1.3 2.2 Heating process of polymer powder materials by laser Mechanism of selective laser sintering of polymer powder materials Influence of properties of polymer and its composite powder materials on selective laser sintering processing Preparation, composition, and characterization of polymers and their composite powder materials 2.2.1 2.2.2 2.2.3 2.3 Polymer materials Metal materials Ceramic materials 1 Preparation of polymer powder materials Composition of selective laser sintering polymer materials Characterization of selective laser sintering polymer materials 9 11 19 24 49 49 53 59 Nylon 12 powder materials 61 2.3.1 2.3.2 62 2.3.3 Preparation process of nylon 12 powder materials Selective laser sintering process characteristics of the nylon 12 powder Performance of nylon 12 powder selective laser sintering parts 73 89 v
vi Contents 2.4 Composite powder material of nylon 12 2.4.1 Composite powder material of nylon 12/rectorite 2.4.2 Nanosilica/nylon 12 composite powder materials 2.4.3 Composite powder material of nylon 12 coated aluminum Nylon 12/copper composite powder material Composite powder material of nylon 12/potassium titanate whisker 2.4.6 Carbon fiber/nylon 12 composite powder material 2.5 Styrene-based amorphous polymer powder materials 2.5.1 Polystyrene powder materials 2.5.2 Styrene—acrylonitrile copolymer powder material 2.5.3 High impact polystyrene powder material 2.6 Polycarbonate powder material 2.6.1 Selective laser sintering process and properties of polycarbonate powder material 2.6.2 Effects of postprocessing on the properties of polycarbonate sintered parts 2.7 Acrylonitrile—butadiene—styrene powder material 2.7.1 Basic characteristics of acrylonitrile—butadienestyrene materials 2.7.2 Sintering performance of acrylonitrile—butadienestyrene powder References 2.4.4 2.4.5 3. Polymer materials for additive manufacturing: liquid materials 3.1 3.2 Overview of stereolithography apparatus formed photopolymer 3.1.1 Stereolithography apparatus material 3.1.2 Stereolithography apparatus reaction mechanism 3.1.3 Characteristic parameters of photopolymer and ultraviolet light source 3.1.4 Characteristics of photopolymer materials and their stereolithography apparatus formability Research on stereolithography apparatus solid materials 3.2.1 Study on benzyl alcohol accelerator in cationic stereolithography apparatus system 3.2.2 Study on iodonium salt and its photoinitiators 3.2.3
Study on stereolithography apparatus kinetics of trimethylene oxide 3.2.4 Study on the preparation and properties of solid materials in cationic systems 3.2.5 Study on the preparation and properties of hybrid system solid materials 3.2.6 Ştudy^on preparation and properties of solid materials in tree-rad i cal system 91 92 98 111 130 138 150 162 163 163 168 176 178 182 184 184 186 189 191 191 195 203 215 218 228 230 240 260 264 279 284
Contents 3.3 Oligomers in stereolithography apparatus solid materials 3.3.1 Polypropylene glycol diglycidylether diacrylate 3.3.2 Low-viscosity urethane acrylate 3.3.3 Oligomer of stereolithography apparatus support material 3.3.4 Synthesis and properties of waterborne urethane acrylate 3.3.5 Synthesis and properties of polyethylene glycol diacrylate 3.3.6 Study on the preparation of support materials by oligomers 3.4 Modified stereolithography apparatus forming materials 3.4.1 Nano-Si02 modified stereolithography apparatus forming material 3.4.2 Toughened photopolymer material of epoxy acrylate 3.4.3 Synthesis and application of a novel alicyclic epoxy acrylate References 4. vii 288 288 293 305 3О6 320 323 329 330 340 349 359 Polymer material for additive manufacturing—filament materials 361 4.1 5. Fused deposition modeling principle and process of polymer filament materials 4.1.1 Fused deposition modeling principle 4.1.2 Analysis of material modeling process 4.1.3 Thermodynamic transformation of polymer processing 4.1.4 Performance requirements for fuse deposition modeling polymer materials 4.2 Modeling materials in fuse deposition modeling 4.2.1 ABS filament 4.2.2 Poly lactic acid filament 4.2.3 Polycarbonate and its composites filaments 4.2.4 Nylon filaments 4.3 Support materials in fuse deposition modeling 4.3.1 Overview of support materials 4.3.2 Break-away support materials 4.3.3 Water-soluble support materials References 371 373 373 378 383 386 387 387 389 395 400 Metal materials for additive manufacturing 403 5.1 Additive manufacturing technologies for metal
materials and the principles 5.1.1 Selective laser melting technology 5.1.2 Wire and arc additive manufacture 361 361 361 366 403 403 407
viii Contents 5.2 6. 409 409 412 415 Forming mechanisms of metal materials 5.2.1 Laser energy transfer 5.2.2 Absorption of laser energy by metal 5.2.3 Absorption of laser by metal powder 5.2.4 Temperature, stress and strain fields in selective laser melting forming process 5.2.5 Dynamics and stability of melting pool 5.3 Metal powder for selective laser melting 5.3.1 Effects of powder particle size on formability 5.3.2 Effects of powder sphericity on formability 5.3.3 Effects of powder oxygen content on formability 5.3.4 Common metal and alloy powder materials for additive manufacturing 5.4 Properties and microstructure characteristics of metal powder for additive manufacturing 5.4.1 Metallurgical characteristics of selective laser melting metal powder 5.4.2 Surface roughness and dimensional accuracy of formed parts by the selective laser melting technology 5.4.3 Microstructure characteristics and mechanical properties of typical metal materials for additive manufacturing 5.5 Metal wire for arc fuse deposition forming 5.5.1 Design and preparation technology of wire materials 5.5.2 Characterization of metal wire properties 5.6 Microstructure and properties of wire and arc additive manufacture 5.6.1 Microstructure and properties of multiaxial pipe joint component 5.6.2 Microstructure and performance of typical repaired components References 588 594 Ceramic materials for additive manufacturing 597 6.1 Additive manufacturing technology and principle of ceramic materials 6.1.1 Stereolithography technology and principles of ceramic slurry 6.1.2 Three-dimensional printing
technology and principle of ceramic powders 6.1.3 Selective laser melting technology and principles of ceramic powders 6.1.4 Laminated objected manufacturing technology and principles of ceramic sheets 6.1.5 Fused deposition modeling technology and principle of ceramic filaments K F 419 436 439 439 450 452 454 455 455 507 545 575 575 578 579 579 597 599 600 601 602 604
Contents Selective laser sintering technology and principles of ceramic powders 6.2 Forming mechanism of the ceramics prepared by selective laser sintering 6.3 Preparation of ceramic materials for selective laser sintering 6.3.1 Ceramic powders and binders for selective laser sintering 6.3.2 Preparation of composite ceramic powders for selective laser sintering 6.3.3 Properties of ceramic composite powders and ceramics prepared by selective laser sintering References ¡x 6.1.6 Application cases of additive manufacturing materials 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 7.10 7.11 7.12 7.13 Application case 1 of additive manufacturing polymer powder material Application case 2 of additive manufacturing polymer powder material Application case 3 of additive manufacturing polymer powder material Application case 1 of additive manufacturing polymer wire material Application case 1 of polymer liquid materials for additive manufacturing Application case 1 of metal powder materials for additive manufacturing 7.6.1 Drum lid 7.6.2 Lid and box Application case 2 of metal powder materials for additive manufacturing Application case 1 of metal wire materials for additive manufacturing 7.8.1 Printing of ultralarge (thin wall) parts 7.8.2 Multimateria! forging die forming 7.8.3 Hot forging die remanufacturing 7.8.4 Part remanufacturing Application case 2 of metal wire materials for additive manufacturing Application case 3 of metal wire materials for additive manufacturing Application case 1 of ceramic powder materials for additive manufacturing Application case 2 of ceramic powder materials
for additive manufacturing Application case 3 of ceramic powder materials for additive materials 605 606 609 609 612 617 645 649 649 650 653 654 656 657 657 660 662 665 666 667 668 669 670 672 673 674 675
x Contents 7.13.1 7.13.2 7.13.3 8. Manufacturing of cordierite ceramic parts Manufacturing of Al203 ceramic parts Manufacturing of SiC ceramic parts Materials for four-dimensional printing 679 8.1 8.2 679 Definition of four-dimensional printing Research and development status of four-dimensional printing materials at home and abroad 8.2.1 Polymers and their composite materials 8.2.2 Metals and their composite materials 8.2.3 Ceramics and their composite materials 8.3 Research progress of our team on four-dimensional printing materials 8.3.1 Cu-AI-Ni-based shape memory alloys 8.3.2 Cu-Zn-Al-based shape memory alloys 8.3.3 Double network hydrogel reinforced by carbon nanotubes 8.3.4 Acrylate-based shape memory polymer References Index 675 676 677 680 680 683 685 686 686 702 710 721 735 741 |
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| illustrated | Illustrated |
| index_date | 2024-07-03T16:29:52Z |
| indexdate | 2024-07-10T09:03:15Z |
| institution | BVB |
| isbn | 9780128193020 0128193026 |
| language | English |
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| physical | xiii, 760 Seiten Illustrationen, Diagramme 23 cm |
| publishDate | 2021 |
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| publisher | Elsevier, AP, Academic Press Huazhong University of Science and Technology Press |
| record_format | marc |
| series2 | 3D printing technology applications |
| spelling | Shi, Yusheng 1962- Verfasser (DE-588)1247824551 aut Materials for additive manufacturing Yusheng Shi [and six others] London Elsevier, AP, Academic Press [2021] [Wuhan] Huazhong University of Science and Technology Press xiii, 760 Seiten Illustrationen, Diagramme 23 cm txt rdacontent n rdamedia nc rdacarrier 3D printing technology applications Werkstoffwahl (DE-588)4136338-3 gnd rswk-swf Rapid Prototyping Fertigung (DE-588)4389159-7 gnd rswk-swf Additive manufacturing Rapid Prototyping Fertigung (DE-588)4389159-7 s Werkstoffwahl (DE-588)4136338-3 s DE-604 Erscheint auch als Online-Ausgabe 978-0-12-819303-7 Digitalisierung UB Bamberg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032528873&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Shi, Yusheng 1962- Materials for additive manufacturing Werkstoffwahl (DE-588)4136338-3 gnd Rapid Prototyping Fertigung (DE-588)4389159-7 gnd |
| subject_GND | (DE-588)4136338-3 (DE-588)4389159-7 |
| title | Materials for additive manufacturing |
| title_auth | Materials for additive manufacturing |
| title_exact_search | Materials for additive manufacturing |
| title_exact_search_txtP | Materials for additive manufacturing |
| title_full | Materials for additive manufacturing Yusheng Shi [and six others] |
| title_fullStr | Materials for additive manufacturing Yusheng Shi [and six others] |
| title_full_unstemmed | Materials for additive manufacturing Yusheng Shi [and six others] |
| title_short | Materials for additive manufacturing |
| title_sort | materials for additive manufacturing |
| topic | Werkstoffwahl (DE-588)4136338-3 gnd Rapid Prototyping Fertigung (DE-588)4389159-7 gnd |
| topic_facet | Werkstoffwahl Rapid Prototyping Fertigung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032528873&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT shiyusheng materialsforadditivemanufacturing |