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3D Printing for Energy Applications


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      Table of Contents

      1  Cover

      2  Title Page

      3  Copyright Page

      4  Contributors

      5  Introduction to 3D Printing Technologies I.1 3D Printing Technologies I.2 3D Printing Hierarchical, Material and Functional Complexity I.3 3D Printing for Energy I.4 Scope of the Book References

      6  Part I: 3D printing of functional materials 1 Additive Manufacturing of Functional Metals 1.1 Introduction 1.2 Powder Bed Fusion AM 1.3 Direct Material Deposition 1.4 Solid‐State Additive Manufacturing 1.5 Hybrid AM Through Green Body Sintering 1.6 Conclusions Acknowledgment References 2 Additive Manufacturing of Functional Ceramics 2.1 Introduction 2.2 Ceramics 3D Printing Technologies References 3 3D Printing of Functional Composites with Strain Sensing and Self‐Heating Capabilities 3.1 Introduction 3.2 Carbon Nanotube Reinforced Functional Polymer Nanocomposites 3.3 Printing Strategies 3.4 Strain Sensing of Printed Nanocomposites 3.5 Electric Heating Performance Analysis 3.6 Electrical Actuation of the CNT/SMP Nanocomposites 3.7 Conclusions References

      7  Part II: 3D printing challenges for production of complex objects 4 Computational Design of Complex 3D Printed Objects 4.1 Introduction 4.2 Dedicated Computational Design for 3D Printing 4.3 Case Study: Computational Design of a 3D‐Printed Flow Manifold 4.4 Current State and Future Challenges References 5 Multicomponent and Multimaterials Printing 5.1 Multicomponent Printing: A Short Review 5.2 Multicomponent Printing: A Case Study on Piezoceramic Sensors in Smart Pipes 5.3 Summary and Outlook Acknowledgments References 6 Tailoring of AM Component Properties via Laser Powder Bed Fusion 6.1 Introduction 6.2 Machines, Materials, and Sample Preparation 6.3 Sample Preparation and Characterization Techniques 6.4 Material Qualification and Process Development 6.5 Tailoring Grain Size via Adaptive Processing Strategies 6.6 Tailoring Material Properties By Using Powder Blends 6.7 Tailoring Properties By Using Special Geometries Such As Lattice Structures Funding Conflicts of Interest References 7 3D Printing Challenges and New Concepts for Production of Complex Objects 7.1 Introduction 7.2 Geometrical Complexity 7.3 Material Complexity 7.4 Energy Requirements 7.5 Promising Metal Deposition Approaches 7.6 Multimaterial and Multi‐property SLA 7.7 Temporal Multiplexing 7.8 Resin Formulations with Multiple End‐States 7.9 Associated Processing Considerations 7.10 Bioprinting of Realistic and Vascularized Tissue 7.11 Emerging Volumetric Additive Processes 7.12 Computation for CAL