001408970 000__ 10929nam\a22004933i\4500 001408970 001__ 1408970 001408970 003__ MiAaPQ 001408970 005__ 20220901003401.0 001408970 006__ m\\\\\o\\d\\\\\\\\ 001408970 007__ cr\cn\nnnunnun 001408970 008__ 220828s2020\\\\xx\\\\\\o\\\\\|||\0\eng\d 001408970 020__ $$a9780768093162 001408970 020__ $$z9780768093179 001408970 035__ $$a(MiAaPQ)EBC28983877 001408970 035__ $$a(Au-PeEL)EBL28983877 001408970 035__ $$a(OCoLC)1247070023 001408970 040__ $$aMiAaPQ$$beng$$erda$$epn$$cMiAaPQ$$dMiAaPQ 001408970 1001_ $$aArmstrong, Keith. 001408970 24510 $$aCare and Repair of Advanced Composites. 001408970 250__ $$a3rd ed. 001408970 264_1 $$aWarrendale :$$bSAE International,$$c2020. 001408970 264_4 $$c©2020. 001408970 300__ $$a1 online resource (564 pages). 001408970 336__ $$atext$$btxt$$2rdacontent 001408970 337__ $$acomputer$$bc$$2rdamedia 001408970 338__ $$aonline resource$$bcr$$2rdacarrier 001408970 5050_ $$aCover -- CHAPTER 1 Introduction to Composites and Care of Composite Parts -- 1.1 Definition of Composites -- 1.2 History of Composite Materials -- 1.3 Advantages and Disadvantages of Composites -- 1.3.1 Advantages of Composites -- 1.3.2 Disadvantages of Thermosetting Resin Composites -- 1.3.3 Advantages of Thermosetting Resin Composites -- 1.3.4 Advantages of Thermoplastic Resin Composites -- 1.3.5 Disadvantages of Thermoplastic Resin Composites -- 1.4 Applications of Composites to Modern Aircraft, Yachts, Cars, and Trains -- 1.4.1 Early Aircraft Structures -- 1.4.2 Modern Aircraft Structures and Other Applications -- 1.4.3 Projected Use of Composites -- 1.5 Care of Composite Parts -- 1.5.1 Sources of Damage to Composite Parts -- 1.5.1.1 Physical or Chemical Damage -- 1.5.1.2 Deterioration in Normal Service -- 1.5.2 Avoidance of Damage and Reduction of Deterioration in Service -- References -- CHAPTER 2 Materials -- 2.1 Fiber Reinforcement -- 2.1.1 Comparison of Some High-Performance Fibers and Common Metals -- 2.1.2 Glass Fiber -- 2.1.2.1 Glass Manufacture -- 2.1.2.2 Glass Fiber Manufacture -- 2.1.3 Carbon Fibers -- 2.1.3.1 Carbon Fiber Manufacture -- 2.1.3.2 Future Development -- 2.1.3.3 Further Details of Carbon and Graphite Fibers -- 2.1.4 Aramid Fibers -- 2.1.5 Boron Fibers -- 2.1.6 Other New Fibers -- 2.2 Forms of Reinforcement -- 2.2.1 Tapes -- 2.2.2 Fabrics -- 2.2.2.1 Woven Fabric Weave Styles -- 2.2.2.2 Effect of Weave Style -- 2.2.2.3 Non-crimp Fabrics -- 2.2.2.4 Nonwoven Randomly Oriented Mats -- 2.2.2.5 Fiber and Fabric Glossary -- 2.3 Fiber Sizing and Finish -- 2.3.1 Glass Fiber Finishes -- 2.3.2 Carbon Fiber Finishes -- 2.3.3 Aramid Fiber Finishes -- 2.3.4 Sizing and Finish for New Types of Fibers and Fabrics -- 2.4 Matrix (Resin) Systems -- 2.4.1 Thermoplastic Composites -- 2.4.1.1 Early Applications -- 2.4.2 Thermosetting Resins. 001408970 5058_ $$a2.4.3 Properties Required of Matrix Resins and Adhesives -- 2.4.3.1 Physical and Chemical Properties -- 2.4.3.2 Mechanical Properties -- 2.4.3.3 Epoxy-Based Matrix Resins and Adhesives for Aerospace Use -- 2.4.4 Epoxy and Phenolic Pre-pregs and Film Adhesives: Curing Stages -- 2.4.5 Mixing and Mix Ratios for Epoxy Wet Resins -- 2.4.5.1 Weighing -- 2.4.5.2 Mixing -- 2.4.5.3 Definitions Related to Mixing and Application -- 2.4.6 Polyester Resins -- 2.5 Adhesives -- 2.5.1 Liquid and Paste Adhesives -- 2.5.2 Foaming Adhesives -- 2.5.3 Film Adhesives -- 2.5.4 Glue-Line Thickness Control -- 2.5.5 In-Service Effects on Resin Systems -- 2.6 Core Materials -- 2.6.1 Wood -- 2.6.2 Foam Core Materials -- 2.6.2.1 Material Types -- 2.6.2.2 Foam Density -- 2.6.2.3 Advantages and Disadvantages -- 2.6.3 Honeycomb Core Materials -- 2.6.3.1 Honeycomb Material Types -- 2.6.3.2 Cell Shapes -- 2.6.3.3 Honeycomb Densities and Cell Sizes -- 2.6.4 Fluted Core -- 2.6.5 Syntactic Core -- 2.7 Syntactic Foams and Potting Compounds -- 2.7.1 Filler Materials for Potting Compounds, Resin Systems, and Adhesives -- 2.7.2 Other Fillers -- 2.8 Protective Coatings -- 2.8.1 Sealants -- 2.8.1.1 Old-Generation Thiokol Sealants -- 2.8.1.2 New-Generation Polythioether Sealants -- 2.8.1.3 Silicone Sealants -- 2.8.1.4 Viton Rubber Sealants -- 2.8.2 Primers -- 2.8.3 Finishes -- 2.8.4 Conductive Coatings -- 2.8.5 Erosion-Resistant Coatings -- 2.8.6 Other Protective Coatings -- References -- Bibliography -- CHAPTER 3 Handling and Storage -- 3.1 Shipping and Receiving -- 3.2 Temperature Requirements -- 3.3 Storage Practices -- 3.3.1 Temperature Requirements -- 3.3.1.1 Dry Fabrics -- 3.3.1.2 Storage of Pre-preg, Film, and Paste Adhesives, Potting Compounds, and Primers -- 3.3.1.2.1 Thermoplastic Resins and Their Composites. -- 3.3.1.3 Storage of Sealants for Aircraft Use. 001408970 5058_ $$a3.3.1.4 Storage of Consumable Items for Composite and Bonded Metal Repairs -- 3.3.2 Cleanliness and Damage Prevention -- 3.3.3 Moisture Damage Prevention -- 3.3.4 Identification -- 3.3.5 Release Notes and Approved Certificates -- 3.4 Shelf Life/Out-Time -- 3.5 Kitting -- 3.6 Recertification -- 3.7 Care of Materials in the Hangar or Workshop -- CHAPTER 4 Manufacturing Techniques -- 4.1 Filament Winding -- 4.2 Lay-Up Methods for Fabrics and Tapes -- 4.2.1 Hand Lay-Up (Wet and Pre-preg Laminating) -- 4.2.2 Automated Lay-Up -- 4.3 Pultrusion -- 4.4 Resin Transfer Molding -- 4.5 Injection Molding -- 4.6 Tow Placement -- 4.7 Press Molding -- 4.8 Vacuum Bonding -- 4.9 Autoclave Bonding -- 4.10 Oven Curing -- References -- Other Useful Reading -- CHAPTER 5 Original Design Criteria -- 5.1 Principal, Primary, and Secondary Structures -- 5.1.1 Sources of Damage to Composite Airframe Components -- 5.1.2 Consequences of Failure -- 5.2 Types of Composite Structures -- 5.2.1 Monolithic Laminated Structures (Solid Laminates) -- 5.2.2 Sandwich Structures -- 5.3 Ply Orientation -- 5.3.1 Warp Clock -- 5.3.2 Balance and Symmetry -- 5.3.3 Nesting and Stacking -- 5.4 Core Orientation and Other Design Characteristics -- 5.5 Operational Environment -- 5.5.1 Temperature -- 5.5.2 Humidity -- 5.5.3 Contaminants -- 5.5.4 Erosion -- 5.5.5 Thermal Stresses -- 5.5.6 Hygrothermal Effects -- 5.5.7 Fire Resistance -- 5.6 Electrical Requirements -- 5.6.1 Galvanic Corrosion -- 5.6.2 Electromagnetic Interference -- 5.6.3 Electrostatic Discharge -- 5.6.4 Lightning Strike Energy Dispersion -- 5.6.5 Radar Transmissivity -- 5.7 Mechanical Requirements -- 5.7.1 Tensile and Flexural Strength -- 5.7.2 Stiffness -- 5.7.3 Fatigue -- 5.7.4 Impact Resistance -- 5.7.5 Creep -- 5.8 Attachments/Joints -- 5.8.1 Bonded Joints -- 5.8.2 Mechanically Fastened/Riveted Joints. 001408970 5058_ $$a5.9 Other Design Requirements -- 5.9.1 Aerodynamic Smoothness -- 5.9.2 Weight and Balance -- References -- CHAPTER 6 Safety and Environment -- 6.1 Introduction -- 6.2 Workshop Conditions for Good Bonding -- 6.3 Respirable Fibers and Dust -- 6.3.1 Fiberglass -- 6.3.2 Carbon and Graphite Fibers -- 6.3.3 Aramid Fibers -- 6.3.4 Sanding Dust -- 6.4 Fumes and Vapors -- 6.4.1 Resin Fumes -- 6.4.2 Solvent Vapors -- 6.4.3 Sealant Vapors -- 6.4.4 Coatings -- 6.4.5 Fuel -- 6.4.6 Acid Fumes and Splash -- 6.4.7 Exposure Limits -- 6.5 Skin Contact -- 6.5.1 Fibers in Contact with the Skin -- 6.5.2 Resins in Contact with the Skin -- 6.5.3 Solvents in Contact with the Skin -- 6.5.4 Selection of Suitable Gloves -- 6.5.5 Skin Creams for Personal Protection -- 6.6 Material Safety Data Sheets -- 6.7 Exothermic Reactions -- 6.8 Waste Disposal -- 6.9 Safety Procedures -- 6.9.1 Emergency Action First-Aid Procedures -- 6.9.2 General Safety Procedures -- 6.9.3 Personal Safety Precautions -- 6.9.4 Dermatitis -- 6.10 Action in the Event of a Chemical Spillage -- 6.11 Explosion Risk -- 6.12 Static Discharge and Fire Prevention -- 6.12.1 Static Discharge Prevention -- 6.12.2 Fire Prevention -- 6.13 Safety Requirements for Electrical Appliances -- 6.14 ISO Environmental Management Standards -- References -- Bibliography -- CHAPTER 7 Damage and Repair Assessment -- 7.1 Visual Inspection -- 7.2 Tap Test -- 7.3 Ultrasonic Inspection -- 7.4 X-Ray Methods -- 7.5 Eddy Current Inspection -- 7.6 Thermography -- 7.7 Bond Testers -- 7.8 Moisture Meters -- 7.9 Drying of Composites Prior to Repair -- 7.10 Interferometry/Shearography -- 7.11 Damage Types -- 7.12 Sources of Mechanical Damage -- 7.13 Damage Mapping -- 7.13.1 Assessment of Damage Significance -- References -- CHAPTER 8 Source Documents -- 8.1 Revision Systems -- 8.2 Effectivity -- 8.3 Drawing Numbering Systems. 001408970 5058_ $$a8.4 Internal Documents -- 8.5 Material and Process Specifications -- 8.6 Original Equipment Manufacturer Documents -- 8.7 Regulatory Documents -- 8.8 Airlines for America (formerly Air Transport Association of America) ATA 100 System -- 8.9 Aircraft Maintenance Manual -- 8.10 Component Maintenance Manual -- 8.11 Overhaul Manual -- 8.12 Illustrated Parts Catalog -- 8.13 Structural Repair Manual -- 8.14 Engine Manual -- CHAPTER 9 Structural Repair Manual (SRM) Repair Method Selection -- 9.1 Component Identification -- 9.2 Damage Classification -- 9.2.1 Damage Terminology -- 9.2.2 Critical Areas -- 9.2.3 Allowable/Negligible Damage -- 9.2.4 Repairable Damage -- 9.2.5 Overhaul or Replace -- 9.2.6 Other Considerations -- 9.3 Repair Methods -- 9.3.1 Speedtape -- 9.3.2 Resin Sealing -- 9.3.3 Potted Repairs -- 9.3.4 Bolted Doublers (Metal Plates) and Bonded Doublers (Composite Patches) -- 9.3.5 Pre-cured Doublers Versus Co-cured Doublers -- 9.3.6 Room-Temperature Wet Lay-Up -- 9.3.7 Elevated-Temperature Wet Lay-Up -- 9.3.8 Pre-preg Repairs -- 9.3.9 Scarfed and Stepped-Lap Repairs -- 9.3.10 Composite Repairs to Metals -- References -- CHAPTER 10 Repair Techniques -- 10.1 Preparation -- 10.1.1 Paint Removal -- 10.1.2 Disbonding Methods -- 10.1.2.1 Disbonding Adhesively Bonded Metal Parts -- 10.1.2.2 Disbonding Composite Parts -- 10.1.3 Damage Removal -- 10.1.3.1 Damage Removal from Metal Parts -- 10.1.3.2 Removal of Skin and Doubler Material -- 10.1.3.3 Damage Removal from Composite Parts -- 10.1.3.4 Removal of Core Material -- 10.1.3.5 Removal of Surface Corrosion -- 10.1.4 Moisture and Contamination Removal -- 10.1.5 Surface Preparation of Composites: Repair Sanding and Ply Determination -- 10.1.5.1 Abrading -- 10.1.5.2 Taper Sanding/Scarfing -- 10.1.5.3 Step Sanding and Cutting -- 10.1.6 Water Break Test -- 10.1.7 Metallic Surface Preparation. 001408970 5058_ $$a10.2 Typical Repairs. 001408970 506__ $$aAccess limited to authorized users. 001408970 588__ $$aDescription based on publisher supplied metadata and other sources. 001408970 655_0 $$aElectronic books 001408970 7001_ $$aCole, William. 001408970 7001_ $$aChesmar, Eric. 001408970 7001_ $$aMuseux, Francois. 001408970 77608 $$iPrint version:$$aArmstrong, Keith$$tCare and Repair of Advanced Composites$$dWarrendale : SAE International,c2020$$z9780768093179 001408970 852__ $$bebk 001408970 85640 $$3ProQuest Ebook Central Academic Complete $$uhttps://univsouthin.idm.oclc.org/login?url=https://ebookcentral.proquest.com/lib/usiricelib-ebooks/detail.action?docID=28983877$$zOnline Access 001408970 909CO $$ooai:library.usi.edu:1408970$$pGLOBAL_SET 001408970 980__ $$aBIB 001408970 980__ $$aEBOOK 001408970 982__ $$aEbook 001408970 983__ $$aOnline