11 Nanocomposites and nanohybrids in additive manufacturing
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A. T. Erturk
Abstract
Additive manufacturing (AM) has undergone significant technological development since its emergence in the 1970s. This development is expected to continue and take an important place in the manufacturing sector. Developing new materials for AM processes is among today’s essential issues. This chapter gives general insight into the application of nanocomposites and nanohybrids in the AM. AM has become very common in the last few years, with its benefits to high-tech products and its superior features such as enabling the production of end products. Additive manufacturing is used in many areas such as defense industry, automotive, medicine, biomedical, biomedical engineering, and medical/pharmaceutical industries. In particular, it is not possible to produce some specific products by traditional methods. On this point, AM technologies have become quite advantageous. The content presents recent advances and classification of 3D printing processes for nanocomposites. These include high-performance polymer, and metal and ceramic nanocomposites, which are expected to expand into applications requiring highly durable materials suitable against extreme conditions. Input material properties, as well as the processing parameters for AM processes of nanocomposites and nanohybrids, are explained. General information for the mechanical properties of the AM components made of nanocomposites and nanohybrids is presented.
Abstract
Additive manufacturing (AM) has undergone significant technological development since its emergence in the 1970s. This development is expected to continue and take an important place in the manufacturing sector. Developing new materials for AM processes is among today’s essential issues. This chapter gives general insight into the application of nanocomposites and nanohybrids in the AM. AM has become very common in the last few years, with its benefits to high-tech products and its superior features such as enabling the production of end products. Additive manufacturing is used in many areas such as defense industry, automotive, medicine, biomedical, biomedical engineering, and medical/pharmaceutical industries. In particular, it is not possible to produce some specific products by traditional methods. On this point, AM technologies have become quite advantageous. The content presents recent advances and classification of 3D printing processes for nanocomposites. These include high-performance polymer, and metal and ceramic nanocomposites, which are expected to expand into applications requiring highly durable materials suitable against extreme conditions. Input material properties, as well as the processing parameters for AM processes of nanocomposites and nanohybrids, are explained. General information for the mechanical properties of the AM components made of nanocomposites and nanohybrids is presented.
Chapters in this book
- Frontmatter I
- Preface V
- Acknowledgments VII
- Contents IX
- 1 The current scenario in nanocomposite and nanohybrid materials 1
- 2 A current perspective on nanocomposite and nanohybrid material: developments and trends 29
- 3 Synthetic nanomaterials: fabrication, development, and characterization 55
- 4 Advances in fabrication, development, and characterization of synthetic nanomaterials 85
- 5 Structural, morphological, thermal, and long persistent properties of synthesized nanostructured phosphor 99
- 6 Mechanical characteristics and surface roughness testing of nanomaterials in enhancing the discharge over spillways 117
- 7 Biomedical considerations of nanomaterials based on biological aspects in biomedical field 139
- 8 Nanomaterial-based molecular imaging and targeted cancer therapy: current progress and limitations 161
- 9 Emerging perspectives of nanoparticles to treat neurodegenerative diseases 179
- 10 Understanding antibacterial disinfection mechanisms of oxide-based photocatalytic materials 195
- 11 Nanocomposites and nanohybrids in additive manufacturing 223
- 12 Characterization and mechanical properties analysis of carbon nanotube and hydroxyapatite-modified polymethyl methacrylate bone cement for bio-nanocomposite 237
- 13 Role of nanomaterials in enhancing the performance of polymer composite materials 259
- 14 Nanotechnology: a novel weapon for insect pest and vector management 277
- 15 Effect of carbon nanotubes, aluminum hydroxide, and zinc borate on the mechanical and fire properties of epoxy nanocomposite 297
- 16 Recent advancements in polymer nanocomposites-based adsorbents for chromium removal 315
- About the editors 337
- List of contributors 339
- Index 343
Chapters in this book
- Frontmatter I
- Preface V
- Acknowledgments VII
- Contents IX
- 1 The current scenario in nanocomposite and nanohybrid materials 1
- 2 A current perspective on nanocomposite and nanohybrid material: developments and trends 29
- 3 Synthetic nanomaterials: fabrication, development, and characterization 55
- 4 Advances in fabrication, development, and characterization of synthetic nanomaterials 85
- 5 Structural, morphological, thermal, and long persistent properties of synthesized nanostructured phosphor 99
- 6 Mechanical characteristics and surface roughness testing of nanomaterials in enhancing the discharge over spillways 117
- 7 Biomedical considerations of nanomaterials based on biological aspects in biomedical field 139
- 8 Nanomaterial-based molecular imaging and targeted cancer therapy: current progress and limitations 161
- 9 Emerging perspectives of nanoparticles to treat neurodegenerative diseases 179
- 10 Understanding antibacterial disinfection mechanisms of oxide-based photocatalytic materials 195
- 11 Nanocomposites and nanohybrids in additive manufacturing 223
- 12 Characterization and mechanical properties analysis of carbon nanotube and hydroxyapatite-modified polymethyl methacrylate bone cement for bio-nanocomposite 237
- 13 Role of nanomaterials in enhancing the performance of polymer composite materials 259
- 14 Nanotechnology: a novel weapon for insect pest and vector management 277
- 15 Effect of carbon nanotubes, aluminum hydroxide, and zinc borate on the mechanical and fire properties of epoxy nanocomposite 297
- 16 Recent advancements in polymer nanocomposites-based adsorbents for chromium removal 315
- About the editors 337
- List of contributors 339
- Index 343
