Film Processing
1st Edition
Published on 5. December 2013
458 pages
978-3-446-40179-2 (ISBN)
Description
The manufacturing process for preparing very thin polymer products has developed into what is arguably the largest outlet for synthetic polymers. The central theme of this volume is the developments in process hardware and operating techniques that permit increasingly high production rates, optimum property development, unusual degrees of molecular orientation, and the coextrusion of multi-layer, multi-component film and sheet. The strong relationships and the interdependence of these developments on the achievements in polymer design, such as rheology and mechanical and optical properties, are also discussed.
Contents:
· Film Processing Overview and Introductory Rheology
· Flat Die Analysis
· Spiral Die Analysis
· Die Control System of Film Thickness Distribution
· Kinematics, Dynamics and Physical Properties of Blown Film
· Bubble Instability: Experimental Evaluation
· Optical Properties and Structural Characteristics of Tubular Film
· Theoretical Analysis of Film Deformation Behavior in Casting
· Analysis of Draw Resonance Instability in the Film Casting Process
· Multilayer Films
· Biaxially Oriented Films
· Influence of Processing Conditions on Structure and Physical Properties of Biaxially Stretched Engineering Thermoplastics
· Theoretical Analysis of Tentering Process
· Double Bubble Tubular Film Process System and Theoretical Analysis of Stress Development and Scale-up Rule
More details
Other editions
Additional editions
Toshitaka Kanai | Gregory A. Campbell
Film Processing
Book
10/2011
1st Edition
Hanser
€199.99
Shipment within 5-7 days
Toshitaka Kanai | Gregory A. Campbell
Film Processing
Book
08/1999
1st Edition
Hanser
€149.90
Article exhausted; check for reprint
Persons
Editor
Gregory A. Campbell, Ph.D., is Chief Technical Officer at Castle Associates, Jonesport, ME. He was previously professor and departmental chair of chemical engineeering at Clarkson University, NY. He formerly directed a research group at GM Research and managed polymer fabrication at Mobil Chemical Research. He is a Fellow and former Extrusion Board Member of the Society of Plastics Engineers (SPE).
ISNI:
ISNI:
Content
- Intro
- Contents
- 1 Film Processing: Overview and Introductory Rheology
- 1.1 Introduction
- 1.2 Cast Film
- 1.3 Blown Film
- 1.4 Tentering
- 1.5 Double Bubble Process
- 1.6 Volume Contents
- 1.7 Rheological Considerations
- 1.7.1 Shear Rheology
- 1.7.2 Elongational Rheology
- 1.7.3 Literature Review
- 2.1 Flat Die Analysis
- 2.1.1 Introduction
- 2.1.2 Simple Die Flow
- 2.1.3 Theoretical One-Dimensional Analysis of the Flat Die
- 2.1.4 Two-Dimensional Numerical Analysis of the Flat Die
- 2.1.5 The Multilayer Flat Die
- 2.2 Spiral Die Analysis
- 2.2.1 Introduction
- 2.2.2 Annular Flow Geometry
- 2.2.3 Basic Design Considerations
- 2.2.4 Mathematical Modeling
- 2.3 Die Control System of Film Thickness Distribution
- 2.3.1 Introduction
- 2.3.2 Cast Film.
- 2.3.3 Blown Film
- 2.3.4 Outlook
- 3.1 Dynamics, Heat Transfer, and StructureDevelopment in Tubular Film Extrusion of Polymer Melt
- 3.1.1 Introduction
- 3.1.2 Rheological Measurement
- 3.1.3 Local Kinematics
- 3.1.4 Temperature Profiles
- 3.1.5 Heat Transfer
- 3.1.6 Crystallization Rate
- 3.1.7 Theoretical Analysis
- 3.1.8 Dimensionless Analysis
- 3.1.9 Predictions of the Model
- 3.1.10 Physical Properties of High Molecular Weight HDPE Tubular Film
- 3.1.11 Scaleup of High Molecular Weight HDPE
- 3.1.12 Processability
- 3.2 Kinematics, Dynamics, and Physical Properties of Blown Film
- 3.2.1 Introduction
- 3.2.2 Single-Phase Model Dynamics
- 3.2.3 Fluid-Solid Models
- 3.2.4 Property Development in Blown Film
- 3.2.5 Summary
- 3.4 Optical Properties and Structural
- 3.4.1
- Introduction
- 3.4.2 Background
- 3.4.2.1 Structural Characteristics
- 3.4.2.2 Electromagnetic Theory and Optical Characteristics
- 3.4.2.4 Orientation
- 3.4.2.5 Interaction of Electromagnetic Waves with Surfaces
- 3.4.3 Measurement Methods
- 3.4.3.2 Measurement of Orientation in Films
- 4.1.1
- Introduction
- 4.1.2 Analysis of Film Deformation under Steady State
- 4.1.4 Analysis of Neck-In and Edge Bead Phenomena
- Relevance of the Problem in the Film Industry
- Draw Resonance in Newtonian Fluids
- 4.2.4.2 Viscoelastic Fluids
- 4.2.6 Conclusion
- 5.4 Coextrusion of Cast Film/Sheet
- 5.5 Coextrusion Feedblock and Multimanifold Dies
- 5.7 Coextrusion of Blown Film
- 5.8 Coextrusion Equipment Considerations and Auxiliaries
- 3.3 Bubble Instability: ExperimentalEvaluation
- 3.3.1 Introduction
- 3.3.2 Theory
- 3.3.3 Qualitative Experimental Analysis
- 3.3.4 Quantitative Stability Analysis
- 3.3.5 Summary
- 3.4 Optical Properties and Structural Characteristics of Tubular Film
- 3.4.1 Introduction
- 3.4.2 Background
- 3.4.3 Measurement Methods.
- 3.4.4 Orientation Development in Vitrifying Tubular Film
- 3.4.5 Structure Development in Crystalline Tubular Film
- 3.4.6 Mechanism of Haze
- 4.1 Theoretical Analysis of Film Deformation Behavior in Casting
- 4.1.1 Introduction
- 4.1.2 Analysis of Film Deformation under Steady State
- 4.1.3 Analysis of Film Temperature
- 4.1.4 Analysis of Neck-In and Edge Bead Phenomena
- 4.1.5 Influence of Processing Factors on Film Properties
- 4.1.6 Concluding Remarks
- 4.2 Analysis of Draw Resonance Instabilityin the Film Casting Process
- 4.2.1 Introducation
- 4.2.2 Relevance of the Problem in the Film Industry
- 4.2.3 Draw Resonance in Newtonian Fluids
- 4.2.4 Draw Resonance in Non-Newtonian Fluids
- 4.2.5 Mechanism of Draw Resonance
- 4.2.6 Conclusion
- 5 Multilayer Films
- 5.1 Introduction
- 5.2 Monolayer Cast Film Extrusion
- 5.3 Monolayer Blown Film Extrusion
- 5.4 Coextrusion of Cast Film/Sheet
- 5.5 Coextrusion Feedblock and Multimanifold Dies
- 5.6 Coextrusion of Flexible Cast Film
- 5.7 Coextrusion of Blown Film
- 5.8 Coextrusion Equipment Considerations and Auxiliaries
- 5.8.1 Extruder Screws for Coextrusion
- 5.8.2 Mixers for Coextrusion
- 5.8.3 Gear Pumps for Coextrusion
- 5.8.4 Gauge Control of Coextruded Sheet and Film
- 5.8.5 Coextrusion Process Control
- 5.9 Coextrusion Coating with Lamination
- 5.10 Concluding Thought
- 6.1 Biaxially Oriented Film
- 6.1.1 Introduction
- 6.1.2 Outline of the Tentering System Machine
- 6.1.3 Polymer Handling
- 6.1.4 The Extrusion Process
- 6.1.5 Filter and Die
- 6.1.6 The Casting Process
- 6.1.7 Stretching and Annealing Processes
- 6.1.8 Takeoff and Winding Processe
- 6.1.9 Process Control
- 6.1.10 Closing Comments
- 6.2 Influence of Processing Conditions on Structure and Physical Properties of Biaxially Stretched Engineering Thermoplastics
- 6.2.1 Chemistry of Polyesters and Its Importance in Processing
- 6.2.2 Solid State Phase Behavior of PET
- 6.2.3 PET Film Technology
- 6.2.4 Stress-Induced Crystallization
- 6.2.5 Development of Structure with Deformation
- 6.2.6 Dynamic and Static Mechanical Properties
- 6.2.7 Other Properties of Interest
- Solid State Phase Behavior of PET
- 6.2.5.1 Stretching of PET below
- 6.2.5.2 Stretching of PET above
- 6.2.5.3 Deformation Behavior of PET in the Rubbery Region and Its Relationship to Thickness Uniformity
- 6.2.5.4 Structure and Morphology Developed by Biaxial Stretching of PET
- 3x3
- 3xl
- 6.2.5.6 Crystallinity and Thermal Properties
- 6.2.6.4 One-Step (Simultaneous) Biaxially Stretched Film
- 6.2.6.5 Two-Step Biaxially Stretched Films
- 6.3 Stretching Conditions, Orientation, and Physical Properties of Biaxially Oriented Film
- 6.3.1 Introduction
- 6.3.2 Outline of the Film Making Process
- 6.3.3 Sequential (LD TD) Stretchin
- 6.3.4 General Properties of PET Film
- 6.3.5 Quality Improvement of PET Films
- 6.4 Theoretical Analysis ofthe Tentering Process
- 6.4.1 Introduction
- 6.4.2 Mathematical Model for the Extension of Thin Uneven Rubber Film
- 6.4.3 Numerical Analysis of Film Extension by the Finite Element Method (FEM)
- 7.1 Double Bubble Tubular Film Process System and Theoretical Analysis of Stress Development and Scaleup Rule
- 7.1.1 Introduction
- 7.1.2 Technical Trends and Typical Applications
- 7.1.3 Experimental and Theoretical Background
- 7.1.4 Results and Discussion
- 7.1.5 On Adaptability to Noncrystalline Resin (PS)
- 7.1.6 The Film Stretching Process and Its Physical Properties (Simultaneous versus Multistage)
- 7.1.7 The Heat Set Technique (Production of Shrink Film)
- 7.1.8 Development of Peripheral Technology for the Double Bubble Tubular BiaxialStretching Process
- 7.1.9 Prospective Directions of Double Bubble Tubular Biaxial Stretching
- 7.2 Biaxially Oriented Double BubbleTubularFilm: Process and Film Character
- 7.2.1 Introduction
- 7.2.2 Process Technologies and Structural Characteristics of Double Bubble Tubular Film
- 7.2.3 Final Comments.
- Index
