MARC ayrıntıları
| 000 -LEADER |
|---|
| fixed length control field |
12691nam a2200313 i 4500 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
|---|
| fixed length control field |
010813s2002 flua b 001 0 eng |
| 010 ## - LIBRARY OF CONGRESS CONTROL NUMBER |
|---|
| LC control number |
2001004994 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
0849305853 |
| 040 ## - CATALOGING SOURCE |
|---|
| Original cataloging agency |
DLC |
| Language of cataloging |
eng |
| Transcribing agency |
DLC |
| Modifying agency |
YDX |
| -- |
CIN |
| -- |
BAUN |
| Description conventions |
rda |
| 049 ## - LOCAL HOLDINGS (OCLC) |
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| Holding library |
BAUN_MERKEZ |
| 050 04 - LIBRARY OF CONGRESS CALL NUMBER |
|---|
| Classification number |
TA418.9.C6 |
| Item number |
M34 2002 |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Edition number |
21 |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
|---|
| Personal name |
Mazumdar, Sanjay K |
| 245 10 - TITLE STATEMENT |
|---|
| Title |
Composites manufacturing : |
| Remainder of title |
materials, product, and process engineering / |
| Statement of responsibility, etc |
Sanjay K. Mazumdar |
| 264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE |
|---|
| Place of production, publication, distribution, manufacture |
Boca Raton, FLA : |
| Name of producer, publisher, distributor, manufacturer |
CRC Press, |
| Date of production, publication, distribution, manufacture, or copyright notice |
[2002] |
|
|---|
| Date of production, publication, distribution, manufacture, or copyright notice |
©2002 |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
392 pages : |
| Other physical details |
illustrations ; |
| Dimensions |
24 cm |
| 336 ## - CONTENT TYPE |
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| Content Type Term |
text |
| Content Type Code |
txt |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
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| Media Type Term |
unmediated |
| Media Type Code |
unmediated |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
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| Carrier Type Term |
volume |
| Carrier Type Code |
volume |
| Source |
rdacarrier |
| 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 |
Table Of Contents: |
| -- |
Introduction |
| -- |
Conventional Engineering Materials |
| -- |
Metals |
| -- |
Plastics |
| -- |
Ceramics |
| -- |
Composites |
| -- |
What Are Composites? |
| -- |
Functions of Fibers and Matrix |
| -- |
Special Features of Composites |
| -- |
Drawbacks of Composites |
| -- |
Composites Processing |
| -- |
Composites Product Fabrication |
| -- |
Composites Markets |
| -- |
The Aerospace Industry |
| -- |
The Automotive Industry |
| -- |
The Sporting Goods Industry |
| -- |
Marine Applications |
| -- |
Consumer Goods |
| -- |
Construction and Civil Structures |
| -- |
Industrial Applications |
| -- |
Barriers in Composite Markets |
| -- |
References |
| -- |
Questions |
| -- |
Raw Materials for Part Fabrication |
| -- |
Introduction |
| -- |
Reinforcements |
| -- |
Glass Fiber Manufacturing |
| -- |
Carbon Fiber Manufacturing |
| -- |
Aramid Fiber Manufacturing |
| -- |
Matrix Materials |
| -- |
Thermoset Resins |
| -- |
Epoxy |
| -- |
Phenolics |
| -- |
Polyesters |
| -- |
Vinylesters |
| -- |
Cyanate Esters |
| -- |
Bismaleimide (BMI) and Polyimde |
| -- |
Polyurethane |
| -- |
Thermoplastic Resins |
| -- |
Nylons |
| -- |
Polypropylene (PP) |
| -- |
Polyetheretherketone (PEEK) |
| -- |
Polyphenylene Sulfide (PPS) |
| -- |
Fabrics |
| -- |
Woven Fabrics |
| -- |
Noncrimp Fabrics |
| -- |
Prepregs |
| -- |
Thermoset Prepregs |
| -- |
Thermoplastic Prepregs |
| -- |
Preforms |
| -- |
Molding Compound |
| -- |
Sheet Molding Compound |
| -- |
Thick Molding Compound (TMC) |
| -- |
Bulk Molding Compound (BMC) |
| -- |
Injection Moldable Compounds |
| -- |
Honeycomb and Other Core Materials |
| -- |
References |
| -- |
Questions |
| -- |
Material Selection Guidelines |
| -- |
Introduction |
| -- |
The Need for Material Selection |
| -- |
Reasons for Material Selection |
| -- |
Material Property Information |
| -- |
Steps in the Material Selection Process |
| -- |
Understanding and Determining the Requirements |
| -- |
Selection of Possible Materials |
| -- |
Determination of Candidate Materials |
| -- |
Testing and Evaluation |
| -- |
Material Selection Methods |
| -- |
Cost vs. |
|
|---|
| Title |
Property Analysis |
| -- |
Weighted Property Comparison Method |
| -- |
Scaling for Maximum Property Requirement |
| -- |
Scaling for Minimum Property Requirement |
| -- |
Scaling for Nonquantitative Property |
| -- |
Expert System for Material Selection |
| -- |
Bibliography |
| -- |
Questions |
| -- |
Product Development |
| -- |
Introduction |
| -- |
What Is the Product Development Process |
| -- |
Reasons for Product Development |
| -- |
Importance of Product Development |
| -- |
Concurrent Engineering |
| -- |
Product Life Cycle |
| -- |
Phases of Product Development |
| -- |
Concept Feasibility Phase |
| -- |
Detailed Design Phase |
| -- |
Prototype Development and Testing Phase |
| -- |
Preproduction Demonstration, or Pilot-Scale Production |
| -- |
Full-Scale Production and Distribution |
| -- |
Continuous Improvement |
| -- |
Design Review |
| -- |
Failure Modes and Effects Analysis (FMEA) |
| -- |
References |
| -- |
Bibliography |
| -- |
Questions |
| -- |
Design for Manufacturing |
| -- |
Introduction |
| -- |
Design Problems |
| -- |
What Is DFM? |
| -- |
DFM Implementation Guidelines |
| -- |
Minimize Part Counts |
| -- |
Eliminate Threaded Fasteners |
| -- |
Minimize Variations |
| -- |
Easy Serviceability and Maintainability |
| -- |
Minimize Assembly Directions |
| -- |
Provide Easy Insertion and Alignment |
| -- |
Consider Ease for Handling |
| -- |
Design for Multifunctionality |
| -- |
Design for Ease of Fabrication |
| -- |
Prefer Modular Design |
| -- |
Success Stories |
| -- |
Composite Pickup Box |
| -- |
Laser Printer |
| -- |
Black and Decker Products |
| -- |
When to Apply DFM |
| -- |
Design Evaluation Method |
| -- |
Design for Assembly (DFA) |
| -- |
Benefits of DFA |
| -- |
Assembly-Related Defects |
| -- |
Guidelines for Minimizing Assembly Defects |
| -- |
References |
| -- |
Questions |
| -- |
Manufacturing Techniques |
| -- |
Introduction |
| -- |
Manufacturing Process Selection Criteria |
| -- |
Production Rate/Speed |
| -- |
Cost |
| -- |
Performance |
| -- |
Size |
| -- |
Shape |
| -- |
Product Fabrication Needs |
| -- |
Mold and Tool Making |
| -- |
Mold Design Criteria |
| -- |
Shrinkage Allowance |
| -- |
Coefficient of Thermal Expansion of Tool Material and End Product |
| -- |
Stiffness of the Mold |
| -- |
Surface Finish Quality |
| -- |
Draft and Corner Radii |
| -- |
Methods of Making Tools |
| -- |
Machining |
| -- |
FRP Tooling for Open Molding Processes |
| -- |
Tooling Guidelines for Closed Molding Operations |
| -- |
Basic Steps in a Composites Manufacturing Process |
| -- |
Impregnation |
| -- |
Lay-up |
| -- |
Consolidation |
| -- |
Solidification |
| -- |
Advantages and Disadvantages of Thermoset and Thermoplastic Composites Processing |
| -- |
Advantages of Thermoset Composites Processing |
| -- |
Disadvantages of Thermoset Composites Processing |
| -- |
Advantages of Thermoplastic Composites Processing |
| -- |
Disadvantages of Thermoplastic Composites Processing |
| -- |
Composites Manufacturing Processes |
| -- |
Manufacturing Processes for Thermoset Composites |
| -- |
Prepreg Lay-Up Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling Requirements |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Typical Manufacturing Challenges |
| -- |
Advantages of the Prepreg Lay-Up Process |
| -- |
Limitations of the Prepreg Lay-Up Process |
| -- |
Wet Lay-Up Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling Requirements |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Wet lay-Up Process |
| -- |
Limitations of the Wet Lay-Up Process |
| -- |
Spray-Up Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling Requirements |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Spray-Up Process |
| -- |
Limitations of the Spray-Up Process |
| -- |
Filament Winding Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Methods of Generating the Desired Winding Angle |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Filament Winding Process |
| -- |
Limitations of the Filament Winding Process |
| -- |
Pultrusion Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Wall Thickness |
| -- |
Corner Design |
| -- |
Tolerances, Flatness, and Straightness |
| -- |
Surface Texture |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Pultrusion Process |
| -- |
Limitations of the Pultrusion Process |
| -- |
Resin Transfer Molding Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Resin Transfer Molding Process |
| -- |
Limitations of the Resin Transfer Molding Process |
| -- |
Variations of the RTM Process |
| -- |
VARTM |
| -- |
SCRIMP |
| -- |
Structural Reaction Injection Molding (SRIM) Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the SRIM Process |
| -- |
Limitations of the SRIM Process |
| -- |
Compression Molding Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Making of the Part |
| -- |
Mold Design |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Compression Molding Process |
| -- |
Limitations of the Compression Molding Process |
| -- |
Roll Wrapping Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Roll Wrapping Process |
| -- |
Limitations of the Roll Wrapping Process |
| -- |
Common Problems with the Roll Wrapping Process |
| -- |
Injection Molding of Thermoset Composites |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Manufacturing Processes for Thermoplastic Composites |
| -- |
Thermoplastic Tape Winding |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Advantages of the Thermoplastic Tape Winding Process |
| -- |
Limitations of the Thermoplastic Tape Winding Process |
| -- |
Thermoplastic Pultrusion Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Advantages of the Thermoplastic Pultrusion Process |
| -- |
Limitations of the Thermoplastic Pultrusion Process |
| -- |
Compression Molding of GMT |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Part Fabrication |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Advantages of Compression Molding of GMT |
| -- |
Limitations of Compression Molding of GMT |
| -- |
Hot Press Technique |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of the Hot Press Technique |
| -- |
Limitations of the Hot Press Technique |
| -- |
Autoclave Processing |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Basic Processing Steps |
| -- |
Advantages of Autoclave Processing |
| -- |
Limitations of Autoclave Processing |
| -- |
Diaphragm Forming Process |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Advantages of the Diaphragm Forming Process |
| -- |
Limitations of the Diaphragm Foming Process |
| -- |
Injection Molding |
| -- |
Major Applications |
| -- |
Basic Raw Materials |
| -- |
Tooling |
| -- |
Making of the Part |
| -- |
Basic Processing Steps |
| -- |
Methods of Applying Heat and Pressure |
| -- |
Advantages of the Injection Molding Process |
| -- |
Limitations of the Injection Molding Process |
| -- |
References |
| -- |
Bibliography |
| -- |
Questions |
| -- |
Process Models |
| -- |
Introduction |
| -- |
The Importance of Models in Composites Manufacturing |
| -- |
Composites Processing |
| -- |
Process Models for Selected Thermosets and Thermoplastics Processing |
| -- |
Thermochemical Sub-Model |
| -- |
Autoclave or Hot Press Process for Thermoset Composites |
| -- |
Filament Winding of Thermoset Composites |
| -- |
Tape Winding of Thermoplastic Composites |
| -- |
Flow Sub-Model |
| -- |
Compaction and Resin Flow during Autoclave Cure |
| -- |
Resin Flow Normal to the Tool Plate |
| -- |
Resin Flow Parallel to the Tool Plate |
| -- |
Total Resin Flow |
| -- |
Compaction and Resin Flow during Filament Winding |
| -- |
Consolidation of Thermoplastic Composites during Autoclave or Hot Press Processing |
| -- |
Consolidation and Bonding Models for Thermoplastic Tape Laying and Tape Winding |
| -- |
Void Sub-Model |
| -- |
Stress Sub-Model |
| -- |
Process Model for RTM |
| -- |
References |
| -- |
Questions |
| -- |
Production Planning and Manufacturing Instructions |
| -- |
Introduction |
| -- |
Objectives of Production Planning |
| -- |
Bill of Materials |
| -- |
Manufacturing Instructions |
| -- |
Manufacturing Instructions for Making Tooling Panels |
| -- |
Manufacturing Instructions for making Flaps |
| -- |
Capacity Planning |
| -- |
Problem Definition |
| -- |
Assumptions |
| -- |
Capacity Analysis |
| -- |
Autoclave Capacity Analysis |
| -- |
Freezer Storage Requirement |
| -- |
Questions |
| -- |
Joining of Composite Materials |
| -- |
Introduction |
| -- |
Adhesive |
|
|---|
| Title |
Bonding |
| -- |
Failure Modes in Adhesive Bonding |
| -- |
Basic Science of Adhesive Bonding |
| -- |
Adsorption Theory |
| -- |
Mechanical Theory |
| -- |
Electrostatic and Diffusion Theories |
| -- |
Types of Adhesives |
| -- |
Two-Component Mix Adhesives |
| -- |
Epoxy Adhesives |
| -- |
Polyurethane Adhesives |
| -- |
Two-Component, No-Mix Adhesives |
| -- |
Acrylic Adhesives |
| -- |
Urethane Methacrylate Ester (Anaerobic) Adhesives |
| -- |
One-Component, No-Mix Adhesives |
| -- |
Epoxies |
| -- |
Polyurethanes |
| -- |
Cyanoacrylates |
| -- |
Hot-Melt Adhesives |
| -- |
Solvent- or Water-Based Adhesives |
| -- |
Advantages of Adhesive Bonding over Mechanical Joints |
| -- |
Disadvantages of Adhesive Bonding |
| -- |
Adhesive Selection Guidelines |
| -- |
Surface Preparation Guidelines |
| -- |
Degreasing |
| -- |
Mechanical Abrasion |
| -- |
Chemical Treatment |
| -- |
Design Guidelines for Adhesive Bonding |
| -- |
Theoretical Stress Analysis for Bonded Joints |
| -- |
Mechanical Joints |
| -- |
Advantages of Mechanical Joints |
| -- |
Disadvantages of Mechanical Joints |
| -- |
Failure Modes in a Bolted Joint |
| -- |
Design Parameters for Bolted Joints |
| -- |
Preparation for the Bolted Joint |
| -- |
References |
| -- |
Questions |
| -- |
Machining and Cutting of Composites |
| -- |
Introduction |
| -- |
Objectives/Purposes of Machining |
| -- |
Challenges during Machining of Composites |
| -- |
Failure Mode during Machining of Composites |
| -- |
Cutting Tools |
| -- |
Types of Machining Operations |
| -- |
Cutting Operation |
| -- |
Waterjet Cutting |
| -- |
Laser Cutting |
| -- |
Drilling Operation |
| -- |
References |
| -- |
Questions |
| -- |
Cost Estimation |
| -- |
Introduction |
| -- |
The Need for Cost Estimating |
| -- |
Cost Estimating Requirements |
| -- |
Types of Cost |
| -- |
Nonrecurring (Fixed) Costs |
| -- |
Recurring (Variable) Costs |
| -- |
Cost Estimating Techniques |
| -- |
Industrial Engineering Approach (Methods Engineering) |
| -- |
ACCEM Cost Model |
| -- |
First-Order Model |
| -- |
Cost Estimating by Analogy |
| -- |
Cost Analysis for Composite Manufacturing Processes |
| -- |
Hand Lay-up Technique for Aerospace Parts |
| -- |
Filament Winding for Consumer Goods |
| -- |
Compression Molded SMC Parts for Automotive Applications |
| -- |
Learning Curve |
| -- |
Guidelines for Minimization of Production Cost |
| -- |
References |
| -- |
Bibliography |
| -- |
Questions |
| -- |
Recycling of Composites |
| -- |
Introduction |
| -- |
Categories of Dealing with Wastes |
| -- |
Landfilling or Burying |
| -- |
Incineration or Burning |
| -- |
Recycling |
| -- |
Recycling Methods |
| -- |
Regrinding |
| -- |
Pyrolysis |
| -- |
Existing Infrastructure for Recycling |
| -- |
Automotive Recycling Infrastructure |
| -- |
Aerospace Recycling Infrastructure |
| -- |
References |
| -- |
Questions |
| -- |
Index |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Composite materials |
| 900 ## - EQUIVALENCE OR CROSS-REFERENCE-PERSONAL NAME [LOCAL, CANADA] |
|---|
| Personal Name |
30956 |
|
|---|
| 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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