Pultrusion : state-of-the-art process models / Ismet Baran.
2015
TP1175.P84 B37 2015
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Details
Title
Pultrusion : state-of-the-art process models / Ismet Baran.
Author
ISBN
9781523105731 (electronic bk.)
1523105739 (electronic bk.)
9781910242438 (electronic bk.)
1910242438 (electronic bk.)
9781910242421
191024242X
1523105739 (electronic bk.)
9781910242438 (electronic bk.)
1910242438 (electronic bk.)
9781910242421
191024242X
Published
Shropshire, England : Smithers Rapra, 2015.
Language
English
Description
1 online resource (248 pages) : illustrations
Call Number
TP1175.P84 B37 2015
System Control No.
(OCoLC)945609785
Bibliography, etc. Note
Includes bibliographical references and index.
Formatted Contents Note
Preface; 1 Introduction; 1.1 Pultrusion Process; 1.2 Thermosetting Pultrusion; 1.3 Thermoplastic Pultrusion; 1.4 Pultruded Product Specification; 1.5 Applications; References; 2 Main Challenges during the Pultrusion Process; 2.1 Polymerisation and Phase Transformations; 2.2 Cure Cycle during Pultrusion; 2.3 Residual Stresses and Shape Distortions; 2.4 Pultrusion Die-part Interactions; 2.5 Impregnation; 2.6 Summary; References; 3 Thermokinetics and Curing Behaviour; 3.1 Numerical Investigation; 3.1.1 One-dimensional Models; 3.1.2 Two-dimensional Models; 3.1.3 Three-dimensional Models.
3.2 Experimental Investigation3.3 Conclusions; References; 4 Residual Stresses and Shape Distortions; 4.1 Mechanical Modelling Strategies; 4.1.1 Two-dimensional Model; 4.1.2 Three-dimensional Mechanical Models; 4.2 Case Studies; 4.2.1 Square Profile; 4.2.2 Pultruded Rod; 4.2.3 Box Section; 4.2.4 L-shaped Profile; 4.2.5 NACA0018 Profile; 4.2.6 Pultruded I-beam; 4.3 Conclusions; References; 5 Resin Flow and Reinforcement Impregnation; 5.1 Analysis; 5.2 Governing Equations; 5.3 Permeability Models; 5.4 Porosity; 5.5 Resin Viscosity; 5.6 Flow Front; 5.7 Applications of the Numerical Model.
5.8 Blister Formation5.9 Conclusions; 6 Pulling Force Analysis; 6.1 Analysis; 6.2 Compaction Force; 6.3 Viscous Drag Force; 6.4 Friction Force; 6.5 Modelling Studies; 6.6 Experimental Studies; 6.7 Conclusions; References; 7 Reliability Analysis of the Pultrusion Process; 7.1 Methods; 7.1.1 Monte Carlo Simulation; 7.1.2 Response Surface Method; 7.1.3 The First-order Reliability Method; 7.2 Applications for Fibre-reinforced Composite Materials; 7.3 Pultrusion of a Circular Rod; 7.4 Pultrusion of a Flat Plate; 7.5 Pultrusion of a Square Profile; 7.6 Conclusions; 8 Process Optimisation and Design.
8.1 Gradient-based Algorithms8.2 Genetic Algorithms; 8.3 Particle Swarm Optimisation; 8.4 Hybrid Algorithms; 8.5 Mixed Integer Genetic Algorithm; 8.6 Simulated Annealing Method; 8.7 Multiobjective Problems; 8.8 Conclusions; References; 9 Summary; Abbreviations; Index.
3.2 Experimental Investigation3.3 Conclusions; References; 4 Residual Stresses and Shape Distortions; 4.1 Mechanical Modelling Strategies; 4.1.1 Two-dimensional Model; 4.1.2 Three-dimensional Mechanical Models; 4.2 Case Studies; 4.2.1 Square Profile; 4.2.2 Pultruded Rod; 4.2.3 Box Section; 4.2.4 L-shaped Profile; 4.2.5 NACA0018 Profile; 4.2.6 Pultruded I-beam; 4.3 Conclusions; References; 5 Resin Flow and Reinforcement Impregnation; 5.1 Analysis; 5.2 Governing Equations; 5.3 Permeability Models; 5.4 Porosity; 5.5 Resin Viscosity; 5.6 Flow Front; 5.7 Applications of the Numerical Model.
5.8 Blister Formation5.9 Conclusions; 6 Pulling Force Analysis; 6.1 Analysis; 6.2 Compaction Force; 6.3 Viscous Drag Force; 6.4 Friction Force; 6.5 Modelling Studies; 6.6 Experimental Studies; 6.7 Conclusions; References; 7 Reliability Analysis of the Pultrusion Process; 7.1 Methods; 7.1.1 Monte Carlo Simulation; 7.1.2 Response Surface Method; 7.1.3 The First-order Reliability Method; 7.2 Applications for Fibre-reinforced Composite Materials; 7.3 Pultrusion of a Circular Rod; 7.4 Pultrusion of a Flat Plate; 7.5 Pultrusion of a Square Profile; 7.6 Conclusions; 8 Process Optimisation and Design.
8.1 Gradient-based Algorithms8.2 Genetic Algorithms; 8.3 Particle Swarm Optimisation; 8.4 Hybrid Algorithms; 8.5 Mixed Integer Genetic Algorithm; 8.6 Simulated Annealing Method; 8.7 Multiobjective Problems; 8.8 Conclusions; References; 9 Summary; Abbreviations; Index.
Source of Description
Print version record.
Available in Other Form
Print version: Baran, Ismet. Pultrusion: State-of-the-art Process Models. Shrewsbury : Smithers Rapra, ©2015
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