MARC ayrıntıları
| 000 -LEADER |
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| fixed length control field |
07816nam a2200301 i 4500 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
130718s2011 flua b 001 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9781420090826 |
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| International Standard Book Number |
1420090828 |
| 040 ## - CATALOGING SOURCE |
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| Original cataloging agency |
BAUN |
| Language of cataloging |
eng |
| Transcribing agency |
BAUN |
| Description conventions |
rda |
| 049 ## - LOCAL HOLDINGS (OCLC) |
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| Holding library |
BAUN_MERKEZ |
| 050 04 - LIBRARY OF CONGRESS CALL NUMBER |
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| Classification number |
TA418.9.C6 |
| Item number |
A325 2011 |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Personal name |
Advani, Suresh G. |
| 245 10 - TITLE STATEMENT |
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| Title |
Process modeling in composites manufacturing / |
| Statement of responsibility, etc |
Suresh G. Advani, E. Murat Sozer. |
| 250 ## - EDITION STATEMENT |
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| Edition statement |
2nd edition |
| 264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE |
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| Place of production, publication, distribution, manufacture |
Boca Raton, FL : |
| Name of producer, publisher, distributor, manufacturer |
CRC Press, |
| Date of production, publication, distribution, manufacture, or copyright notice |
c2011. |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
xv, 614 pages : |
| Other physical details |
illustrations ; |
| Dimensions |
27 cm. |
| 336 ## - CONTENT TYPE |
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| Source |
rdacontent |
| Content Type Term |
text |
| Content Type Code |
txt |
| 337 ## - MEDIA TYPE |
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| Source |
rdamedia |
| Media Type Term |
unmediated |
| Media Type Code |
unmediated |
| 338 ## - CARRIER TYPE |
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| Source |
rdacarrier |
| Carrier Type Term |
volume |
| Carrier Type Code |
volume |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
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| Bibliography, etc |
Includes bibliographical references and index. |
| 505 00 - FORMATTED CONTENTS NOTE |
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| Title |
Contents |
| -- |
Preface |
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About the Authors |
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1.Introduction |
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1.1.Motivation and Contents |
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1.2.Preliminaries |
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1.3.Polymer Matrices for Composites |
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1.3.1.Polymer Resins |
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1.3.2.Comparison between Thermoplastic and Thermoset Polymers |
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1.3.3.Additives and Inert Fillers |
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1.4.Fibers |
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1.4.1.Fiber-Matrix Interface |
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1.5.Classification |
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1.5.1.Short Fiber Composites |
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1.5.2.Advanced Composites |
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1.6.General Approach to Modeling |
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1.7.Organization of the Book |
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1.8.Exercises |
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1.8.1.Questions |
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1.8.2.Fill in the Blanks |
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2.Overview of Manufacturing Processes |
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2.1.Background |
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2.2.Classification Based on Dominant Flow Process |
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2.3.Short Fiber Suspension Manufacturing Methods |
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2.3.1.Injection Molding |
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2.3.2.Extrusion |
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2.3.3.Compression Molding |
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2.3.4.Structural Foam Molding |
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2.3.5.Rotational Molding |
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2.4.Advanced Thermoplastic Manufacturing Methods |
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2.4.1.Sheet Forming |
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2.4.2.Thermoplastic Pultrusion |
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2.4.3.Thermoplastic Tape Lay-Up Process |
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2.5.Advanced Thermoset Composite Manufacturing Methods |
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2.5.1.Autoclave Processing |
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2.5.2.Liquid Composite Molding |
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2.5.3.Filament Winding |
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2.6.Exercises |
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2.6.1.Questions |
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2.6.2.Fill in the Blanks |
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3.Transport Equations for Composite Processing |
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3.1.Introduction to Process Models |
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3.2.Conservation of Mass (Continuity Equation) |
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3.2.1.Conservation of Mass |
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3.2.2.Mass Conservation for Resin with Presence of Fibers |
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3.3.Conservation of Momentum (Equation of Motion) |
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3.4.Stress-Strain Rate Relationship |
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3.4.1.Kinematics of Fluid |
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3.4.2.Newtonian Fluids |
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3.5.Examples to Solve Viscous Flow Problems |
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3.5.1.Boundary Conditions |
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3.5.2.Solution Procedure |
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3.6.Conservation of Energy |
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3.6.1.Heat Flux-Temperature Gradient Relationship |
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3.6.2.Thermal Boundary Conditions |
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3.7.Exercises |
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3.7.1.Questions |
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3.7.2.Problems |
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4.Constitutive Laws and Their Characterization |
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4.1.Introduction |
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4.2.Resin Viscosity |
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4.2.1.Shear Rate Dependence |
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4.2.2.Temperature and Cure Dependence |
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4.3.Viscosity of Aligned Fiber Thermoplastic Laminates |
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4.4.Suspension Viscosity |
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4.4.1.Regimes of Fiber Suspension |
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4.4.2.Constitutive Equations |
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4.5.Reaction Kinetics |
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4.5.1.Techniques to Monitor Cure: Macroscopic Characterization |
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4.5.2.Technique to Monitor Cure: Microscopic Characterization |
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4.5.3.Effect of Reinforcements on Cure Kinetics |
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4.6.Thermoplastic Reactive Processing |
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4.7.Crystallization Kinetics |
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4.7.1.Introduction |
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4.7.2.Solidification and Crystallization |
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4.7.3.Background |
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4.7.4.Crystalline Structure |
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4.7.5.Spherulitic Growth |
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4.7.6.Macroscopic Crystallization |
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4.8.Permeability |
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4.8.1.Permeability and Preform Parameters |
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4.8.2.Analytic and Numerical Characterization of Permeability |
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4.8.3.Experimental Characterization of Permeability |
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4.9.Fiber Stress |
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4.10.Exercises |
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4.10.1.Questions |
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4.10.2.Fill in the Blanks |
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4.10.3.Problems |
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5.Model Simplifications and Solutions |
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5.1.Introduction |
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5.1.1.Usefulness of Models |
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5.2.Formulation of Models |
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5.2.1.Problem Definition |
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5.2.2.Building the Mathematical Model |
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5.2.3.Solution of the Equations |
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5.2.4.Model Assessment |
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5.2.5.Revisions of the Model |
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5.3.Model and Geometry Simplifications |
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5.4.Dimensionless Analysis and Dimensionless Numbers |
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5.4.1.Dimensionless Numbers Used in Composites Processing |
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5.5.Customary Assumptions in Polymer Composite Processing |
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5.5.1.Quasi-Steady State |
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5.5.2.Fully Developed Region and Entrance Effects |
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5.5.3.Lubrication Approximation |
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5.5.4.Thin Shell Approximation |
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5.6.Boundary Conditions for Flow Analysis |
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5.6.1.In Contact with a Solid Surface |
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5.6.2.In Contact with Other Fluid Surfaces |
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5.6.3.Free Surfaces |
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5.6.4.No Flow out of a Solid Surface |
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5.6.5.Specified Conditions |
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5.6.6.Periodic Boundary Condition |
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5.6.7.Temperature Boundary Conditions |
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5.7.Convection of Variables |
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5.8.Process Models from Simplified Geometries |
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5.8.1.Model Construction Based on Simple Geometries |
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5.9.Mathematical Tools for Simplification |
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5.9.1.Transformation of Coordinates |
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5.9.2.Superposition |
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5.9.3.Decoupling of Equations |
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5.10.Solution Methods |
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5.10.1.Closed-Form Solutions |
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5.1.Numerical Methods |
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5.12.Validation |
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5.12.1.Various Approaches for Validation |
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5.13.Exercises |
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5.13.1.Questions |
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5.13.2.Problems |
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6.Short Fiber Composites |
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6.1.Introduction |
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6.2.Compression Molding |
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6.2.1.Basic Processing Steps [1] |
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6.2.2.Applications [1] |
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6.2.3.Flow Modeling |
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6.2.4.Thin Cavity Models |
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6.2.5.Hele-Shaw Model |
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6.2.6.Lubricated Squeeze Flow Model |
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6.2.7.Hele-Shaw Model with a Partial Slip Boundary Condition [2-4] |
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6.2.8.Heat Transfer and Cure |
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6.2.9.Cure |
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6.2.10.Coupling of Heat Transfer with Cure |
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6.2.11.Fiber Orientation |
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6.3.Extrusion |
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6.3.1.Flow Modeling |
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6.3.2.Calculation of Power Requirements [5] |
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6.3.3.Variable Channel Length [5] |
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6.3.4.Newtonian Adiabatic Analysis [5] |
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6.4.Injection Molding |
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6.4.1.Process Description |
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6.4.2.Materials |
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6.4.3.Applications |
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6.4.4.Critical Issues |
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6.4.5.Model Formulation for Injection Molding |
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6.4.6.Fiber Orientation |
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6.5.Exercises |
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6.5.1.Questions |
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6.5.2.Fill in the Blanks |
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6.5.3.Problems |
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7.Adv. Thermoplastic Composite Manuf. Processes |
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7.1.Introduction |
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7.2.Composite Sheet Forming Processes |
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7.2.1.Diaphragm Forming |
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7.2.2.Matched Die Forming |
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7.2.3.Stretch and Roll Forming |
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7.2.4.Deformation Mechanisms |
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7.3.Pultrusion |
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7.3.1.Thermoset versus Thermoplastic Pultrusion |
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7.3.2.Cell Model [6] |
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7.4.Thermal Model |
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7.4.1.Transient Heat Transfer Equation |
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7.4.2.Viscous Dissipation |
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7.5.On-Line Consolidation of Thermoplastics |
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7.5.1.Introduction to Consolidation Model |
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7.5.2.Importance of Process Modeling |
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7.5.3.Consolidation Process Model |
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7.5.4.Model Assumptions and Simplifications |
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7.5.5.Governing Equations |
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7.5.6.Boundary Conditions |
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7.5.7.Rheology of the Composite |
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7.5.8.Model Solutions |
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7.5.9.Inverse Problem of Force Control |
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7.5.10.Extended Consolidation Model |
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7.6.Exercises |
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7.6.1.Questions |
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7.6.2.Fill in the Blanks |
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7.6.3.Problems |
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8.Processing Advanced Thermoset Fiber Composites |
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8.1.Introduction |
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8.2.Autoclave Molding |
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8.2.1.Part Preparation |
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8.2.2.Material and Process Parameters |
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8.2.3.Processing Steps |
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8.2.4.Critical Issues |
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8.2.5.Flow Model for Autoclave Processing |
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8.3.Liquid Composite Molding |
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8.3.1.Similarities and Differences between Various LCM Processes |
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8.3.2.Important Components of LCM Processes |
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8.3.3.Modeling Flow Issues in LCM |
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8.3.4.Process Models |
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8.3.5.Resin Flow |
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8.3.6.Heat Transfer and Cure |
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8.3.7.Numerical Simulation of Resin Flow in LCM Processes |
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8.3.8.Case Studies |
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8.3.9.Numerical Solution of Pressure and Velocity Distributions at the End of Mold Filling Using Finite Difference Method |
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8.3.10.Liquid Injection Molding Simulation (LIMS) |
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8.3.11.Case Studies Using LIMS |
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8.4.Filament Winding of Thermosetting Matrix Composites |
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8.4.1.Introduction |
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8.4.2.Process Models |
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8.5.Summary and Outlook |
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8.6.Exercises |
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8.6.1.Questions |
| -- |
8.6.2.Fill in the Blanks |
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8.6.3.Problems |
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A.MATLAB Files |
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B.Solution to Example 8.13 Using FDM |
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C.Additional Examples with LIMS to Model Liquid Mold Filling |
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Bibliography |
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Index |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Composite materials. |
|
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| Topical term or geographic name as entry element |
Manufacturing processes. |
| 700 1# - ADDED ENTRY--PERSONAL NAME |
|---|
| Personal name |
Sozer, E. Murat. |
| 900 ## - EQUIVALENCE OR CROSS-REFERENCE-PERSONAL NAME [LOCAL, CANADA] |
|---|
| Personal Name |
34885 |
|
|---|
| Numeration |
satın |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
|---|
| Source of classification or shelving scheme |
Library of Congress Classification |
| Koha item type |
Kitap |
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