Cargando…

Surface preparation techniques for adhesive bonding /

Surface Preparation Techniques for Adhesive Bonding is an essential guide for materials scientists, mechanical engineers, plastics engineers, scientists and researchers in manufacturing environments making use of adhesives technology. Wegman and van Twisk provide practical coverage of a topic that r...

Descripción completa

Detalles Bibliográficos
Clasificación:	TP968 .W44 2013
Autor principal:	Wegman, Raymond F.
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	[Place of publication not identified] : William Andrew, 2013.
Edición:	2nd ed.
Colección:	Engineering professional collection

Tabla de Contenidos:

Machine generated contents note: 1. Introduction
1.1. Adhesion
1.1.1. Specific Adhesion
1.1.2. Mechanical Adhesion
1.2. Bonding
1.3. Plasma Surface Treatment of Material for Improved Adhesive Bonding
References
2. Aluminum and Aluminum Alloys
2.1. Introduction
2.2. FPL ETCH
2.3. Phosphoric Acid Anodize Process
2.4.P2 Etch Process
2.5. Chromic Acid Anodize Process
2.6. Preparation of Aluminum Alloys by the Sol
Gel Process
2.7. Preparation of Aluminum Alloys by the Optimized FPL Etch (Sulfo-Chrom Etch)
2.7.1. Apparatus
2.7.2. Materials
2.7.3. Processing
2.7.4. Restrictions
2.8. Preparation of Aluminum Alloys by the Phosphoric Acid Anodize Process (PAA)
2.8.1. Apparatus
2.8.2. Appearance
2.8.3. Materials
2.8.4. Processing
2.8.5. Restrictions
2.8.6. Anodic Coating Inspection
2.9. Preparation of Aluminum Alloys by the P2 Etch (Sulfo-Ferric Etch)
2.9.1. Apparatus
2.9.2. Materials
2.9.3. Processing
2.9.4. Restrictions
2.10. Preparation of Aluminum Alloys by the Chromic Acid Anodize Method (CAA)
2.10.1. Apparatus
2.10.2. Appearance
2.10.3. Materials
2.10.4. Processing
2.10.5. Restrictions
2.10.6. Specific Controls
2.11. Preparation of Aluminum Alloys by the AC-130 Sol-Gel Process
2.11.1. Materials
2.11.2. Facilities Controls
2.11.3. Manufacturing Controls
2.11.4. Storage
2.11.5. Processing
2.11.6. Acceptable Results
References
3. Titanium and Titanium Alloys
3.1. Introduction
3.1.1. AC-130 Prebond Surface Treatment
3.2. Preparation of Titanium by the Chromic Acid Anodize Process
3.2.1. Apparatus
3.2.2. Materials
3.2.3. Processing
3.2.4. Restrictions
3.3. Preparation of Titanium by the Turco 5578 Process
3.3.1. Apparatus
3.3.2. Tank Construction
3.3.3. Materials
3.3.4. Processing
3.3.5. Restrictions
3.4. Preparation of Titanium by the Liquid Hone/Pasa-Jell 107 Process
3.4.1. Apparatus
3.4.2. Materials
3.4.3. Processing
3.4.4. Restrictions
3.5. Preparation of Titanium by the Dry Hone/Pasa-Jell
Process
3.5.1. Apparatus
3.5.2. Materials
3.5.3. Processing
3.5.4. Restrictions
3.6. Preparation of Titanium by the Alkaline Peroxide Process
3.6.1. Apparatus
3.6.2. Materials
3.6.3. Processing
3.6.4. Restrictions
3.7. Preparation of Titanium by the Stabilized Phosphate Fluoride Process
3.7.1. Apparatus
3.7.2. Materials
3.7.3. Processing
3.7.4. Restrictions
3.8. Preparation of Titanium Alloys by the AC-130 Sol-Gel Process
3.8.1. Materials
3.8.2. Facilities Controls
3.8.3. Manufacturing Controls
3.8.4. Storage
3.8.5. Processing
3.8.6. Acceptable Results
References
4. Steel and Stainless Steel
4.1. Introduction
4.2. Carbon and Alloy Steels
4.3. Bonding to Oily Steel
4.3.1. Preparation for Bonding to Oily Steel
4.4. Conversion Coating of Steel
4.5. Stainless Steel
4.6. Specialty Stainless Steels
4.7. Preparation of AM355 Stainless Steel by the AC-130 Sol
Gel Process
4.7.1. Materials
4.7.2. Facilities Controls
4.7.3. Manufacturing Controls
4.7.4. Storage
4.7.5. Processing
4.7.6. Acceptable Results
4.8. Preparation of Steel by the Phosphoric Acid-Alcohol Process
4.8.1. Apparatus
4.8.2. Materials
4.8.3. Processing
4.8.4. Variations
4.8.5. Restrictions
4.9. Preparation of Steel by the Nitric-Phosphoric Acid Process
4.9.1. Apparatus
4.9.2. Materials
4.9.3. Processing
4.10. Preparation of Stainless Steel by the Sulfuric Acid-Sodium Dichromate Process
4.10.1. Apparatus
4.10.2. Materials
4.10.3. Processing
4.10.4. Restrictions
4.11. Preparation of Stainless Steel by the Sulfuric Acid-Sodium Bisulfate Process
4.11.1. Apparatus
4.11.2. Materials
4.11.3. Processing
References
5. Copper and Copper Alloys
5.1. Introduction
5.2. Preparation of Copper and Copper Alloys by the Ferric Chloride-Nitric Acid Process
5.2.1. Apparatus
5.2.2. Materials
5.2.3. Processing
5.2.4. Restrictions
5.3. Preparation of Copper and Copper Alloys by the Ferric Sulfate-Sulfuric Acid/Sodium Dichromate-Sulfuric Acid Process
5.3.1. Apparatus
5.3.2. Material
5.3.3. Processing
5.4. Preparation of Copper and Copper Alloys by the Black Oxide Process
5.4.1. Apparatus
5.4.2. Materials
5.4.3. Processing
5.4.4. Restrictions
5.5. Brass
5.5.1. Introduction
5.5.2. Preparation of Brass by a Mechanical
Chemical Process
5.5.3. Preparation of Brass by the Zinc Oxide, Sulfuric Acid, and Nitric Oxide Method
5.6. Bronze
5.6.1. Introduction
5.6.2. Preparation of Bronze by the Zinc Oxide, Sulfuric Acid, and Nitric Acid Process
References
6. Magnesium
6.1. Introduction
6.2. ASTM D1732, Type A, Grade 2 (ASTM D1732 Supersedes the MIL Specification)
6.2.1. Apparatus
6.2.2. Appearance
6.2.3. Materials
6.2.4. Processing
6.3. ASTM D1732, Type 1, Class C (ASTM D1732 Supersedes the MIL Specification)
6.3.1. Apparatus
6.3.2. Appearance
6.3.3. Materials
6.3.4. Processing
6.3.5. Restrictions
6.4. Preparation of Magnesium and Magnesium Alloys by the Chromic Acid Treatment Processes
6.4.1. Apparatus
6.4.2. Materials
6.4.3. Processing
References
7. Other Metals
7.1. Introduction
7.2. Beryllium
7.2.1. Preparation of Beryllium by the Sodium Hydroxide Process
7.2.2. Preparation of Beryllium by the BERYLCOAT "D" Process
7.2.3. Cleaning
7.2.4. Surface Activation Treatment
7.2.5. Passivation
7.2.6. General Processing Recommendations
7.3. Cadmium (Cadmium Plating)
7.3.1. Preparation of Cadmium and Cadmium Plating by Abrasive Scouring
7.4. Chromium (Chromium Plate)
7.4.1. Preparation of Chromium and Chromium Plating by Abrasive Cleaning
7.4.2. Preparation of Chromium and Chromium Plating by the Hydrochloric Acid Process
7.5. Gold
7.5.1. Preparation of Gold by Abrasive Cleaning
7.5.2. Preparation of Gold and Gold Plate by Abrasive Scouring
7.6. Nickel and Nickel Alloys
7.6.1. Preparation of Nickel by Abrasive Cleaning
7.6.2. Preparation of Nickel by the Nitric Acid Etch Process
7.6.3. Sulfuric-Nitric Acid Pickle
7.7. Nickel Plated Parts
7.7.1. Preparation of Nickel Plated Parts by Abrasive Cleaning
7.7.2. Nickel Alloys
7.7.3. Inconel
7.8. Preparation of Inconel Alloys by the AC-130 Sol-Gel Process
7.8.1. Materials
7.8.2. Facilities Control
7.8.3. Manufacturing Controls
7.8.4. Storage
7.8.5. Processing
7.8.6. Acceptable Results
7.9. Platinum
7.9.1. Preparation of Platinum by Abrasive Cleaning
7.9.2. Preparation of Platinum by Abrasive Scouring
7.10. Silver
7.11. Uranium
7.11.1. Preparation of Uranium by Abrasive Cleaning
7.11.2. Preparation of Uranium by the Acetic Acid
Hydrochloric Acid Process
7.11.3. Preparation of Uranium by the Nitric Acid Process
7.12. Zinc
7.12.1. Preparation of Zinc by Abrasion Cleaning
7.12.2. Preparation of Zinc by Acid Etch Processes
7.12.3. Preparation of Zinc by the Sulfuric Acid/Dichromate Etch Processes
7.13. Rare Metals
7.14. Metal Matrix Composites
References
8. Plastics
8.1. Introduction
8.2.Organic Matrix Composites
8.2.1. Peel Ply
8.2.2. Abrasion
8.3. Thermoset Materials
8.4. Thermoplastic Materials
8.5. Acetal Copolymer (Celcon)
8.5.1. Preparation of Acetal Copolymer by the Potassium Dichromate/Sulfuric Acid Etch Process
8.5.2. Preparation of Acetal Copolymer by the Hydrochloric Acid Etch (Nonchromate) Process
8.6. Acetal Homopolymer (Delrin)
8.6.1. Preparation of Acetal Copolymer by the Potassium Dichromate/Sulfuric Acid Process
8.6.2. Preparation of Acetal Copolymer by the DuPont� Three-Step Method
8.7. Acrylonitrile-Butadiene-Styrene
8.7.1. Preparation of ABS by an Abrasive Process
8.7.2. Preparation of ABS by the Sulfuric Acid/Potassium Dichromate Process
8.8. Cellulosics
8.9. Ethylene-Vinyl Acetate
8.10. Fluorinated Ethylene-Propylene (Teflon�, FEP)
8.10.1. Preparation of FEP by the Sodium Naphthalene Complex Process (ASTM D2093)
8.11. Nylon
8.11.1. Preparation of Nylon by the Abrasive Treatment Process
8.11.2. Preparation of Nylon by the Sulfuric Acid/Potassium Dichromate Process
8.11.3. Preparation of Nylon by the Alternate Abrasive Treatment Process
8.12.
Phenyl-Oxide-Based Resins (Noryl� Polyaryl Ethers)
8.12.1. New Method
8.12.2. New Method
8.13. Polyaryl Sulfone (Astrel�)
8.13.1. Preparation of Polyaryl Sulfone by Solvent Washing
8.13.2. Preparation of Polyaryl Sulfone by Abrasive Treatment
8.13.3. Preparation of Polyaryl Sulfone by the Sulfuric Acid/Potassium Dichromate Process
8.14. Polycarbonate (Lexan�, Calibre�, and Tuffak�)
8.14.1. Preparation of Polycarbonate by Flame Treatment
8.14.2. Preparation of Polycarbonate by Hot Air Treatment
8.14.3. Preparation of Polycarbonate by Abrasive Treatment
8.15. Polyethylene
8.15.1. Preparation of Polyethylene by the Potassium Dichromate/Sulfuric Acid Process
8.15.2. Preparation of Polyethylene by the Flame Treatment
Method
8.15.3. Introduction
8.15.4. Newer Methods of Treating Low Density Polyethylene
8.15.5. Preparation of Low Density Polyethylene by the Potassium Dichromate/Sulfuric Acid Process
8.15.6. Preparation of Low Density Polyethylene by the Bleach-Detergent Process
8.15.7. Preparation of Low Density Polyethylene by the Lead Dioxide
Sulfuric Acid Process
8.15.8. Preparation of Low Density Polyethylene by the Potassium Iodate
Sulfuric Acid Process
8.16. Polymethylmethacrylate (Plexiglas or Lucite)
8.16.1. Preparation of Polymethylmethacrylate by
Abrasive Treatment
8.17. Polymethylpentane
8.17.1. Preparation of Polymethylpentane by Abrasive Treatment
8.17.2. Preparation of Polymethylpentane by the Potassium Dichromate/Sulfuric Acid Process
8.17.3. Preparation of Polymethylpentane by the Potassium Permanganate Process
8.18. Polyphenylene Sulfide (Ryton�)
8.18.1. Preparation of Polyphenylene Sulfide by Abrasive Treatment
8.19. Polypropylene

Surface preparation techniques for adhesive bonding /

Ejemplares similares