Edition |
2nd ed. |
Description |
1 online resource (847 p.) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Note |
Description based upon print version of record. |
Contents |
Intro -- Contents -- Preface -- Acknowledgements -- 1 Single-Screw Extrusion: Introduction and Troubleshooting -- 1.1 Organization of this Book -- 1.2 Troubleshooting Extrusion Processes -- 1.2.1 The Injection Molding Problem at Saturn -- 1.3 Introduction to Screw Geometry -- 1.3.1 Screw Geometric Quantitative Characteristics -- 1.4 Simple Flow Equations for the Metering Section -- 1.5 Example Calculations -- 1.5.1 Example 1: Calculation of Rotational and Pressure Flow Components -- 1.5.2 Example 2: Flow Calculations for a Properly Operating Extruder |
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1.5.3 Example 3: Flow Calculations for an Improperly Operating Extruder -- 1.5.4 Metering Channel Calculation Summary -- Nomenclature -- References -- 2 Polymer Materials -- 2.1 Introduction and History -- 2.1.1 History of Natural Polymers -- 2.1.2 The History of Synthetic Polymers -- 2.2 Characteristics of Synthetic Polymers -- 2.3 Structure Effects on Properties -- 2.3.1 Stereochemistry -- 2.3.2 Melting and Glass Transition Temperatures -- 2.3.3 Crystallinity -- 2.4 Polymer Production and Reaction Engineering -- 2.4.1 Condensation Reactions -- 2.4.2 Addition Reactions -- 2.5 Polymer Degradation |
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2.5.1 Ceiling Temperature -- 2.5.2 Degradation of Vinyl Polymers -- 2.5.3 Degradation of Condensation Polymers -- References -- 3 Introduction to Polymer Rheology for Extrusion -- 3.1 Introduction to the Deformation of Materials -- 3.2 Introduction to Basic Concepts of Molecular Size -- 3.2.1 Size Distribution Example -- 3.2.2 Molecular Weight Distributions for Polymers -- 3.3 Basic Rheology Concepts -- 3.4 Polymer Solution Viscosity and Polymer Molecular Weight -- 3.4.1 Sample Calculation of Solution Viscosity -- 3.5 Introduction to Viscoelasticity -- 3.6 Measurement of Polymer Viscosity |
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3.6.1 Capillary Rheometers -- 3.6.2 Cone and Plate Rheometers -- 3.6.3 Melt Index and Melt Flow Rate -- 3.7 Viscosity of Polymers as Functions of Molecular Character, Temperature, and Pressure -- 3.8 Historical Models for Non-Newtonian Flow -- 3.9 Power Law and Viscosity Shear Rate Dependence -- 3.9.1 Shear Stress from Newtonian to Infinite Shear -- 3.9.2 Viscosity as a Function of Shear Rate -- 3.9.3 The Power Law and Process Dissipation -- 3.9.4 Viscosity, Shear Rate, and Dissipation -- 3.9.5 Percolation in Structured Systems -- 3.9.6 Tube Flow Data and Data Analysis |
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3.9.7 Dispersion Based Power Law Constant n -- 3.9.8 Rheological Implictions for Extrusion and Molding Processes -- Nomenclature -- References -- 4 Resin Physical Properties Related to Processing -- 4.1 Bulk Density and Compaction -- 4.1.1 Measurement of Bulk Density -- 4.1.2 Measuring the Compaction Characteristics of a Resin -- 4.2 Lateral Stress Ratio -- 4.2.1 Measuring the Lateral Stress Ratio -- 4.3 Stress at a Sliding Interface -- 4.3.1 The Screw Simulator and the Measurement of the Stress at the Interface -- 4.4 Melting Flux -- 4.5 Heat Capacity |
Note |
4.6 Thermal Conductivity and Heat Transfer. |
Subject |
Plastics -- Extrusion.
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Screw pumps.
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Matières plastiques -- Extrusion.
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Pompes à vis.
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Plastics -- Extrusion
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Screw pumps
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Genre/Form |
Electronic book.
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Added Author |
Spalding, Mark A.
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Other Form: |
Print version: Campbell, Gregory A. Analyzing and Troubleshooting Single-Screw Extruders München : Hanser,c2020 9781569907849 |
ISBN |
9781569907856 |
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1569907854 |
Standard No. |
AU@ 000068875107 |
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