Manufacturing and novel applications of multilayer polymer films /

Manufacturing and Novel Applications of Multilayer Polymer Films discusses the advancements in multilayer technology, including its capability to produce hundreds of layers in a single film by a melt coextrusion process. These engineered films can have significantly enhanced performance properties,...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Langhe, Deepak (Autor), Ponting, Michael (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : William Andrew is an imprint of Elsevier, [2016]
Colección:PDL handbook series.
Temas:
Polymers.
Thin films.
Thin films, Multilayered.
Polymers
Polym�eres.
Couches minces.
Couches de Langmuir-Blodgett.
polymers.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Thin films
Thin films, Multilayered
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Preface; 1
  • Introduction to Multilayered Films; 1.1
  • Introduction; 1.2
  • Coextrusion Processing Techniques; 1.3
  • Toward Hundreds of Layers; 1.4
  • Multilayer Film Applications; 1.5
  • Multilayer Film Properties; 1.5.1
  • Gas Barrier Properties; 1.5.2
  • Adhesion Properties; 1.5.3
  • Mechanical Properties; 1.5.4
  • Interphase Materials; 1.5.5
  • Interdiffusion in Polymers; 1.5.6
  • Optical Properties; 1.5.7
  • Dielectric Properties; 1.6
  • Novel Applications; 1.7
  • Summary; References; 2
  • Coextrusion Processing of Multilayered Films; 2.1
  • Introduction.
  • 2.2
  • Multilayered Film Processing Technologies2.2.1
  • Cast Film Microlayer Coextrusion; 2.2.2
  • Blown Film Microlayer Coextrusion; 2.2.3
  • Other Microlayer Processing Techniques; 2.3
  • Rheological Phenomena in Multilayered Films; 2.3.1
  • Melt Flow Instability in Coextrusion Process; 2.3.2
  • Effect of Viscosity Mismatch on the Layer Structure; 2.3.3
  • Viscosity Effect in Layer Multiplication Process; 2.3.4
  • Melt Influxes and Layer Interfaces; 2.3.5
  • Interfacial Slip in Nanolayers; 2.4
  • Summary; References.
  • 3
  • Gas Transport, Mechanical, Interphase, and Interdiffusion Properties in Coextruded-Multilayered Films3.1
  • Introduction; 3.2
  • Gas Transport Properties of Multilayered Films; 3.2.1
  • Polyethylene Oxide (PEO); 3.2.2
  • Polycaprolactone (PCL); 3.2.3
  • Syndiotactic Polypropylene (sPP); 3.2.4
  • Polyvinylidene Fluoride (PVDF) Polymers; 3.2.5
  • High Density Polyethylene (HDPE); 3.2.6
  • Poly(4-methylpentene-1) (P4MP1); 3.2.7
  • Novel Composites From Multilayered Structures; 3.2.7.1
  • Nanobiaxially Oriented Polypropylene (Nano-BOPP); 3.2.7.2
  • Nanobiaxially Oriented PET (Nano-BOPET).
  • 3.2.7.3
  • Filled Multilayered Film Systems3.2.7.4
  • Injection Molding Of Multilayered Films; 3.3
  • Adhesion and Mechanical Properties of Multilayered Composites; 3.3.1
  • Interfacial Adhesion in Multilayered Films; 3.3.2
  • Adhesion Properties via Tie Layers; 3.3.3
  • Mechanical Properties of Multilayered Composites; 3.3.4
  • Layer Thickness Effect on Mechanical Properties; 3.3.5
  • Deformation in Multilayered Films; 3.3.6
  • Impact Properties of the PC/SAN Multilayer Composites; 3.3.7
  • Fatigue in Multilayered Films; 3.3.8
  • Filled Multilayered Composites; 3.3.9
  • Gradient Layer Composites.
  • 3.3.10
  • Nanoscale Confinement Effect on Mechanical Properties3.3.11
  • Mechanical Properties of Confined Block Copolymers; 3.4
  • Interphase Materials; 3.5
  • Interdiffusion in Multilayered Polymers; 3.5.1
  • Polycarbonate and Copolyester Composites; 3.5.2
  • Nylon-EVOH Composites; 3.5.3
  • Interdiffusion in Polyethylenes; 3.6
  • Summary; References; 4
  • Optical Properties of Multilayered Films; 4.1
  • Introduction; 4.2
  • Polymeric Reflector (Bragg) Films; 4.3
  • Optically Active Nanolayered Film Systems; 4.4
  • Photopatternable Films; 4.5
  • Nanolayer-Enabled Polymer Refractive Optical Devices.
  • 4.6
  • Summary.

Ejemplares similares