Design and Manufacture of Plastic Components for Multifunctionality : Structural Composites, Injection Molding, and 3D Printing /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Goodship, Vannessa (Autor), Middleton, Bethany (Autor), Cherrington, Ruth (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Kidlington, Oxford, UK ; Waltham, MA : William Andrew is an imprint of Elsevier, [2016]
Colección:PDL handbook series.
Temas:
Plastics.
Mati�eres plastiques.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Plastics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Dedication; Contents; List of Contributors; Preface; Acknowledgments; 1
  • Introduction to Multifunctionality and Manufacture; 1.1
  • Introduction to Multifunctionality and Manufacture; 1.2
  • Plastic Processing Routes; 1.2.1
  • Extrusion-Based Processes; 1.2.1.1
  • Single and Twin Screw Extrusion; 1.2.1.2
  • Sheet and Film Extrusion; 1.2.1.3
  • Film Blowing; 1.2.1.4
  • Cast Extrusion; 1.2.1.5
  • Blow Molding; 1.2.1.5.1
  • Extrusion Blow Molding; 1.2.1.5.2
  • Coextrusion Blow Molding; 1.2.1.5.3
  • Injection Blow Molding; 1.2.1.5.4
  • Stretch Blow Molding
  • 1.2.2
  • Nonextrusion-Based Processes1.2.2.1
  • Thermoforming; 1.2.2.2
  • Lamination; 1.2.2.3
  • Roto-Molding; 1.2.2.4
  • Low-Volume Composite Manufacture; 1.3
  • Limitations; 1.4
  • Example Application; 1.4.1
  • Creating Touch Screen Displays Using In-Mold Labeling (IML); 1.5
  • Conclusions; References; 2
  • Materials and Deposition Processes for Multifunctionality; 2.1
  • Materials; 2.1.1
  • Introduction; 2.1.2
  • Electrical Conductivity; 2.1.2.1
  • Intrinsically Conductive Polymers; 2.1.2.2
  • Extrinsically Conductive Polymers; 2.1.2.2.1
  • Metallic Fillers; 2.1.2.2.2
  • Carbon-Based Fillers
  • 2.1.2.3
  • Example Application: Injection Molding to Form Conductive Tracks2.1.3
  • Thermally Conductive Materials; 2.1.4
  • Antimicrobial Materials; 2.1.5
  • Magnetic Materials; 2.1.5.1
  • Ferrites; 2.1.5.2
  • Others; 2.1.6
  • Shape-Memory Polymers; 2.1.7
  • Not Just Polymers! A Brief Introduction to Ceramics; 2.2
  • Film-Forming Processes; 2.2.1
  • Introduction; 2.2.2
  • Vacuum Deposition; 2.2.3
  • Screen Printing; 2.2.4
  • Doctor Blading; 2.2.5
  • Slot-Die Coating; 2.2.6
  • Gravure Coating; 2.2.7
  • Spray Coating; 2.2.8
  • Inkjet Printing; 2.2.8.1
  • Continuous (CIJ); 2.2.8.2
  • Drop-on-Demand; 2.3
  • Sensors
  • 2.4
  • ConclusionsReferences; 3
  • Composites: Manufacture and Application; 3.1
  • Introduction; 3.2
  • Materials; 3.2.1
  • Matrix; 3.2.2
  • Reinforcement; 3.2.2.1
  • Glass Fibers; 3.2.2.2
  • Carbon Fibers; 3.2.2.3
  • Aramid Fibers; 3.2.2.4
  • Basalt Fibers; 3.2.2.5
  • Boron Fibers; 3.2.2.6
  • Natural Fibers; 3.2.2.7
  • Self-Reinforced Polymers; 3.2.3
  • Composite Materials; 3.3
  • Processing; 3.3.1
  • Hand Lay-Up; 3.3.2
  • Spray Lay-Up; 3.3.3
  • Vacuum Bagging; 3.3.4
  • Resin Infusion; 3.3.5
  • Resin Transfer Molding (RTM); 3.3.6
  • Compression Molding; 3.3.7
  • Stamp Forming; 3.3.8
  • Automated Cutting And AFP
  • 3.3.9
  • Autoclave3.3.10
  • Out of Autoclave (OoA); 3.3.11
  • Injection Molding; 3.3.12
  • Extrusion; 3.3.13
  • Pultrusion; 3.3.14
  • Filament Winding; 3.4
  • Composite Properties and Markets; 3.4.1
  • Bulk Properties; 3.4.2
  • Composite Market; 3.4.2.1
  • Global and European Composites Market; 3.4.2.2
  • UK Composite Market; 3.4.2.3
  • Applications; 3.5
  • Research Trends in PMCs; 3.5.1
  • Raw Material and Processing; 3.5.2
  • Hybrid Composites; 3.5.3
  • Green and Biocomposites; 3.5.4
  • Joining; 3.5.5
  • Recycling; 3.5.6
  • Multifunctionality; 3.5.6.1
  • Sensing
  • 3.5.6.2
  • Encapsulated Resin/Accelerator
  • no External Stimulus Required

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