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The Handbook of Rubber Bonding (Revised Edition)
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Titanate and Zirconate Coupling Agents.Ĩ.4.2 Adhesion to Fibres and Fabrics.ĩ.2.1 Aqueous Fabric Treatments.ĩ.2.2 Solvent-Based Adhesive Systems.ĩ.2.3 In Situ Bonding Systems.ĩ.3.2 Dip/textile Interface.ĩ.4.1 Storage of Treated Textiles.ġ0.3 Curing of Cyanoacrylates.ġ0.3.1 Factors Affecting Cure.ġ0.4 Types of Cyanoacrylate.ġ0.4.1 Bonding to Acidic and Porous Substrates.ġ0.4.2 Toughened Cyanoacrylates.ġ0.5.1 Minimise Peel and Deavage Loads.ġ0.5.5 Successful Joint Design.ġ0.7 Environmental Resistance.ġ0.9.1 Pressure/Time Systems.ġ0.10 Health and Safety and Handling Precautions.ġ0.11.4 Bonding Medical Devices.ġ0.12.1 Blooming of Cyanoacrylates.ġ1.2 Why Bond Silicone Rubber?.ġ1.3.1 Silicone to Silicone Bonding (Soft and Soft).ġ1.3.4 Why Use Silicone Rubber for Such Composites?.ġ1.4 Some Applications of Silicone Rubber Composites.ġ1.5.4 The Build-up of Adhesion.ġ1.6 Bonding of Liquid Rubber (LR).ġ1.6.1 Properties of Self-adhesive LR.ġ1.6.2 Limitations of Self-adhesive LR.ġ1.7.1 Self-adhesive HTV Silicone Rubber Applications.ġ1.7.2 Applications for Self-adhesive HTV.ġ1.8.1 Liquid Rubbers in Inserted Parts Technology.ġ1.8.2 LR in Two-component Injection Moulding Technology (Two Colour Mould).ġ1.9 Silicone to Silicone Bonding (Soft and Soft).ġ1.11 Duration of Bonding Properties.ġ1.11.1 Duration of Bonding - Chemically Bonded Composites.ġ2.1.2 Incorrect Moulding Procedures.ġ2.1.3 Incorrect Production Quality Testing Procedures.ġ2.1.4 Corrosion in Service.ġ2.1.7 Factors Affecting Adhesion of Rubbers.ġ2.1.9 Surface Conditions of Adherend.ġ2.1.10 Classification of Rubber According to their Wettabilities.ġ2.1.11 Bonding – Interphase or Interface Considerations.ġ2.2.2 Power Transmission Belt Failure Modes.ġ2.2.3 Adhesion Systems in Power Transmission Belts.ġ2.2.4 Adhesion Testing in Power Transmission Belts.ġ2.3.1 Factors Affecting ‘Fixing’.ġ2.3.3 Other Methods of Preventing ‘Fixing’ - Examined Experimentally. 1.1.1 Structure of Metal Substrates – Metallography.ġ.1.3 Rubber Component with Metal Support.ġ.2.2 Studies of Pre-treatments for Plastics.ġ.2.3 Hydrocarbon Rubbers with Little or No Unsaturation.ġ.2.4 Unsaturated Hydrocarbon Rubbers.ġ.3.2 Plastics Substrate Preparation.ġ.3.3 Degreasing and Solvent Cleaning.ġ.3.4 Adhesive/Bonding Agent Choice.ġ.4.2 The Wet Blast Phosphating Plant.ġ.4.3 Comparison Between Conventional and Wet Blast Phosphating.ġ.4.4 The Wet Blast Phosphating Plant.ġ.4.5 Advantages of the Wet Blast Phosphating Plant.Ģ.2.1 Adhesive Characteristics.Ģ.2.2 Compound Characteristics.Ģ.4 Effective Bond Formation.Ģ.6 Factors Affecting Bond Integrity.ģ.1.4 The Bonding Process - An Overview.ģ.1.6 Bonding Agent Reliability.ģ.1.7 The Environment and Solvent Use.ģ.2 Substrates and their Preparation.ģ.2.1 Mechanical Treatment of Metals.ģ.2.3 Levels of metal cleanliness.ģ.2.5 Chemical Preparation of Surfaces.ģ.3.1 Solvent-borne Bonding Systems.ģ.4.2 Waterborne Bonding Systems.ģ.4.3 Bonding Agent Thickness.ģ.5.2 Choice of Bonding Agent for Post Vulcanisation Bonding.ģ.5.5 Methods of Application.ģ.6.2 Differences Between Solvent and Waterborne Bonding Agents.ģ.6.4 Application and Substrate Temperatures.ģ.6.7 Progress in Performance.ģ.7.1 The Safety Data Sheet.ģ.9 Shelf Life Considerations.ģ.9.2 Procedures for Re-certification of Bonding Agents.Ĥ.1.1 Solvent Elimination by the Rubber Industry.Ĥ.2.2 Structure of Waterborne Bonding Systems.Ĥ.2.4 Waterborne Bonding Systems in Factory Usage.Ĥ.2.6 Waterborne Bonding Agent Application.Ĥ.2.9 General Comments - Waterborne Bonding Agents.Ĥ.3.6 Current Disadvantages of Waterborne Bonding Agents.ĥ.1.2 Influence of Vulcanisation System.ĥ.1.3 Influence of Filler Type.ĥ.1.5 Effects of Tackifiers.ĥ.1.7 Effects of Surface Modification.ĥ.1.9 Influence of Contact Time/Pressure/Temperature.ĥ.1.12 Testing of Tack/Autohesion Levels.ĥ.2 Bonding of Vulcanised Rubbers to Unvulcanised Rubbers.ĥ.3.1 Strip Bonding of Tyre Retreading Components.ĥ.3.2 Effects of Strip Thickness.ĥ.3.5 Effects of the Chemical Nature of Polymers/Polymeric Additives/Surface Roughness.ĥ.3.7 Surface Treatments to Improve Bonding (see also Section 1.2.4.1).Ħ.2.2 Recent Mechanistic Studies.Ħ.2.3 Updated Rubber–Brass Adhesion Model.Ħ.2.4 New Evidence for Ageing of the Interfacial Sulphide Film.Ħ.2.5 Compounding for Brass Adhesion.Ħ.2.6 Additives to Compounds for Brass Adhesion.Ħ.2.7 Developments in Metal Pre-treatments.Ħ.2.8 Developments of Novel Alloys for Bonding to Rubber.ħ.2 Accepted Mechanisms of Rubber–Brass Bonding.ħ.3 Ageing of the Rubber-Brass Bond.ħ.4 Metal Organic Cobalt Salts.ħ.5 The Role of Resins and Silica/Resin Systems (see also Chapter 9.2.3).