4D printing: fundamentals and applications
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam ; Oxford ; Cambridge, MA
Elsevier
[2022]
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | ix, 165 Seiten Illustrationen, Diagramme |
| ISBN: | 9780128237250 |
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Datensatz im Suchindex
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Contents List of contributors ІХ Preface xi Additive manufacturing for 4D applications 1 xiii On 3D printed multiblended and hybrid-blended poly(lactic)acid composite matrix for self-assembly 1 Sudhir Kumar, Rupinder Singh, T.P. Singh and Ajay Batish 1.1 Introduction 1.2 3D printing of hybrid and multiblended matrix of poly(lactic)acid: a case study 1.2.1 1.3 2 Preparation of hybrid-blended matrix and its printing on fused deposition modeling platform Preparation of multimaterial matrix of poly(lactic)acid andits printing on fused deposition modeling platform 1 3 3 3 1.4 Comparative results of multimaterial and hybrid-blended matrix of poly(lactic)acid 4 1.5 Mechanical properties of multimaterial and hybrid-blended matrix 6 1.5.1 6 1.6 Morphological properties 7 1.6.1 Scanning electron microscopy analysis 7 1.6.2 Fourier transformation infrared spectroscopy analysis Tensile and flexural properties 9 1.7 Vibration sample magnetometery results 12 1.8 12 Summary References 13 Graphene-reinforced acrylonitrile butadiene styrene composite as smart material for 4D applications 17 Vinay Kumar, Rupinder Singh and I.P.S. Ahuja 2.1 Introduction 17 2.2 Research gap and problem formulation 20 2.3 Experimentation 21 2.3.1 Chemical-assisted mechanical blending and TSE of G-reinforced ABS 22 2.3.2 Prestraining G-reinforced ABS composite on universal testing machine 24 2.3.3 Vibration sample magnetometry and piezoelectricanalysis 25 v
vi Contents 2.4 Result and discussion 2.4.1 3 Shape memory effect in G-reinforcedABS composites 25 25 2.4.2 Vibration sample magnetometry andpiezoelectric analysis 25 2.4.3 27 Morphological analysis Acknowledgment 32 References 32 Two-way programming of secondary recycled poly(lactic)acid composite matrix using magnetic field as stimu!us 35 Sudhir Kumar, Rupinder Singh, T.P. Singh and Ajay Batish 4 3.1 Introduction 35 3.2 Two-way programming of secondary recycled poly(lactic)acid composite: a case study 37 3.3 Materials and method 37 3.4 Result and discussion 38 3.4.1 Mechanical testing results 38 3.4.2 Vibration sample magnetometery analysis 39 3.4.3 Statistical control of magnetic properties of poly(lactic)acid composites 40 3.4.4 Porosity analysis 41 3.4.5 3D surface rendering and surface roughness analysis 41 3.5 Studies reported at international level 44 3.6 Summary 45 Annex. 1 46 References 50 3D printed graphene-reinforced polyvinylidene fluoride composite for piezoelectric properties 51 Vinay Kumar, Rupinder Singh and I.P.S. Ahuja 4.1 Introduction 51 4.2 Research gap and problem formulation 54 4.3 Experimentation 55 4.3.1 56 4.4 Chemical-assisted mechanical blended of PVDF-graphenecomposite 4.3.2 Twin screw extruder and 3D printing of PVDF-graphene 57 4.3.3 57 Piezoelectric testing 4.3.4 Vibration sample magnetometry analysis 57 Results and discussion 59 4.4.1 Thermal, piezoelectric, and vibration sample magnetometry analysis 59 4.4.2 Morphological analysis 61
Contents 4.5 Summary 5 vii 64 Acknowledgments 65 References 65 On characterization of rechargeable, flexible electrochemical energy storage device 67 Kamaljit Singh Boparai, Abhishek Kumar and Rupinder Singh 5.1 5Ջ 53 6 Introduction Experimentation 67 71 5.2.1 Material selection 71 5.2.2 Sample preparation 78 5.2.3 Sample processing 78 5.2.4 Materials characterization 79 Conclusion 86 Acknowledgment 87 References 87 On dual/multimaterial composite matrix for smart structures: a case study of ABS-PLA, H1PS-PLA-ABS 89 Rupinder Singh, Sudhir Kumar and Ranvijay Kumar 6.1 Introduction 91 6.3 Thumb rule derived from the case study 94 6.4 Validation of thumb rule 96 6.4.1 6.4.2 Case study for validation of thumb rule from dual-material 3D printing on 3D printed three different material combinations of ABS/PLAandhigh-impact polystyrene 6.5 96 Proposed best and worst condition while considering NoC, NoNC, and otherinputparameters 7 89 6.2 On dual-material 3D printing of differentcombination of layers: a case study Summary 98 98 References 1 oo PVDF-graphene-ВаТіОз composite for 4D applications 103 Ravinder Sharma, Rupinder Singh and Ajay Batish 7.1 7.2 Introduction 103 7.1.1 108 Experimentation Results and discussion 111 7.2.1 113 Dimensional analysis
Contents viii 7.2.2 7.3 3D printing of piezoelectric sensor Conclusion References 8 115 117 117 Hydrothermal stimulusfor 4D capabilitiesof PA6-AI-AI203 composite 121 Kamaljit Singh Boparai and Rupinder Singh 8.1 8.2 8.3 9 Introduction 121 Experimentation 126 8.2.1 Materials 126 8.2.2 Sample preparation 126 8.2.3 Sample processing 126 8.2.4 Materials characterization 132 Results and discussion 136 8.3.1 136 Rheological measurements 8.3.2 Tensile testing 138 8.3.3 142 Scanning electron microscopy 8.4 Conclusions 143 Acknowledgement 144 References 144 On PLA-ZnO compositematrix for shape memory effect 147 Ranvijay Kumar, Rupinder Singh, Vinay Kumar and Pawan Kumar 9.1 Introduction 147 9.2 Materials and methods 151 9.3 Experimentation 152 9.3.1 Twin screw compounding 152 9.3.2 Shape memory investigation 152 9.4 Results and discussion 154 9.5 Summary 158 Acknowledgments 158 References 158 Index 161 |
| adam_txt |
Contents List of contributors ІХ Preface xi Additive manufacturing for 4D applications 1 xiii On 3D printed multiblended and hybrid-blended poly(lactic)acid composite matrix for self-assembly 1 Sudhir Kumar, Rupinder Singh, T.P. Singh and Ajay Batish 1.1 Introduction 1.2 3D printing of hybrid and multiblended matrix of poly(lactic)acid: a case study 1.2.1 1.3 2 Preparation of hybrid-blended matrix and its printing on fused deposition modeling platform Preparation of multimaterial matrix of poly(lactic)acid andits printing on fused deposition modeling platform 1 3 3 3 1.4 Comparative results of multimaterial and hybrid-blended matrix of poly(lactic)acid 4 1.5 Mechanical properties of multimaterial and hybrid-blended matrix 6 1.5.1 6 1.6 Morphological properties 7 1.6.1 Scanning electron microscopy analysis 7 1.6.2 Fourier transformation infrared spectroscopy analysis Tensile and flexural properties 9 1.7 Vibration sample magnetometery results 12 1.8 12 Summary References 13 Graphene-reinforced acrylonitrile butadiene styrene composite as smart material for 4D applications 17 Vinay Kumar, Rupinder Singh and I.P.S. Ahuja 2.1 Introduction 17 2.2 Research gap and problem formulation 20 2.3 Experimentation 21 2.3.1 Chemical-assisted mechanical blending and TSE of G-reinforced ABS 22 2.3.2 Prestraining G-reinforced ABS composite on universal testing machine 24 2.3.3 Vibration sample magnetometry and piezoelectricanalysis 25 v
vi Contents 2.4 Result and discussion 2.4.1 3 Shape memory effect in G-reinforcedABS composites 25 25 2.4.2 Vibration sample magnetometry andpiezoelectric analysis 25 2.4.3 27 Morphological analysis Acknowledgment 32 References 32 Two-way programming of secondary recycled poly(lactic)acid composite matrix using magnetic field as stimu!us 35 Sudhir Kumar, Rupinder Singh, T.P. Singh and Ajay Batish 4 3.1 Introduction 35 3.2 Two-way programming of secondary recycled poly(lactic)acid composite: a case study 37 3.3 Materials and method 37 3.4 Result and discussion 38 3.4.1 Mechanical testing results 38 3.4.2 Vibration sample magnetometery analysis 39 3.4.3 Statistical control of magnetic properties of poly(lactic)acid composites 40 3.4.4 Porosity analysis 41 3.4.5 3D surface rendering and surface roughness analysis 41 3.5 Studies reported at international level 44 3.6 Summary 45 Annex. 1 46 References 50 3D printed graphene-reinforced polyvinylidene fluoride composite for piezoelectric properties 51 Vinay Kumar, Rupinder Singh and I.P.S. Ahuja 4.1 Introduction 51 4.2 Research gap and problem formulation 54 4.3 Experimentation 55 4.3.1 56 4.4 Chemical-assisted mechanical blended of PVDF-graphenecomposite 4.3.2 Twin screw extruder and 3D printing of PVDF-graphene 57 4.3.3 57 Piezoelectric testing 4.3.4 Vibration sample magnetometry analysis 57 Results and discussion 59 4.4.1 Thermal, piezoelectric, and vibration sample magnetometry analysis 59 4.4.2 Morphological analysis 61
Contents 4.5 Summary 5 vii 64 Acknowledgments 65 References 65 On characterization of rechargeable, flexible electrochemical energy storage device 67 Kamaljit Singh Boparai, Abhishek Kumar and Rupinder Singh 5.1 5Ջ 53 6 Introduction Experimentation 67 71 5.2.1 Material selection 71 5.2.2 Sample preparation 78 5.2.3 Sample processing 78 5.2.4 Materials characterization 79 Conclusion 86 Acknowledgment 87 References 87 On dual/multimaterial composite matrix for smart structures: a case study of ABS-PLA, H1PS-PLA-ABS 89 Rupinder Singh, Sudhir Kumar and Ranvijay Kumar 6.1 Introduction 91 6.3 Thumb rule derived from the case study 94 6.4 Validation of thumb rule 96 6.4.1 6.4.2 Case study for validation of thumb rule from dual-material 3D printing on 3D printed three different material combinations of ABS/PLAandhigh-impact polystyrene 6.5 96 Proposed best and worst condition while considering NoC, NoNC, and otherinputparameters 7 89 6.2 On dual-material 3D printing of differentcombination of layers: a case study Summary 98 98 References 1 oo PVDF-graphene-ВаТіОз composite for 4D applications 103 Ravinder Sharma, Rupinder Singh and Ajay Batish 7.1 7.2 Introduction 103 7.1.1 108 Experimentation Results and discussion 111 7.2.1 113 Dimensional analysis
Contents viii 7.2.2 7.3 3D printing of piezoelectric sensor Conclusion References 8 115 117 117 Hydrothermal stimulusfor 4D capabilitiesof PA6-AI-AI203 composite 121 Kamaljit Singh Boparai and Rupinder Singh 8.1 8.2 8.3 9 Introduction 121 Experimentation 126 8.2.1 Materials 126 8.2.2 Sample preparation 126 8.2.3 Sample processing 126 8.2.4 Materials characterization 132 Results and discussion 136 8.3.1 136 Rheological measurements 8.3.2 Tensile testing 138 8.3.3 142 Scanning electron microscopy 8.4 Conclusions 143 Acknowledgement 144 References 144 On PLA-ZnO compositematrix for shape memory effect 147 Ranvijay Kumar, Rupinder Singh, Vinay Kumar and Pawan Kumar 9.1 Introduction 147 9.2 Materials and methods 151 9.3 Experimentation 152 9.3.1 Twin screw compounding 152 9.3.2 Shape memory investigation 152 9.4 Results and discussion 154 9.5 Summary 158 Acknowledgments 158 References 158 Index 161 |
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| title_short | 4D printing |
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