Introduction to brazing technology. (2016)
- Record Type:
- Book
- Title:
- Introduction to brazing technology. (2016)
- Main Title:
- Introduction to brazing technology
- Further Information:
- Note: Philip McPherson Roberts.
- Authors:
- Roberts, Philip McPherson
- Contents:
- Process Fundamentals and Operator Safety; Setting the Scene; Wetting; Capillary Flow; Health and Safety in Brazing Where Brazing Fits in Joining Technology; Which Specific Process Should Be Used?; What Are the Advantages of Brazing?; Basic Definitions and Principles; Capillary Attraction and Capillary Flow; Solidus, Liquidus, Melting Range and Eutectic; Working Temperature; Liquation; Process Window; Heat Pattern Development; Procedures; Component Cleanliness; Summary: Fundamental Rules for Successful Brazing Joint Design Fundamentals; Introduction; Basic Joint Design Configurations; Atmosphere Furnace Brazing Filler Materials, Fluxes and Brazing Paste Fundamentals; Introduction; Aluminium-Base Filler Materials; Silver-Base Filler Materials; Self-Fluxing CuP and AgCuP Alloys; Copper-Brazing Filler Materials; High-Temperature Nickel (and Cobalt) Filler Materials; Unclassified Platinum-Group Metal Filler Alloys; ISO Standardised Noble-Metal-Bearing Filler Materials; Brazing Fluxes; Brazing Alloy Pastes Brazing with Flames; Torches for Manual Flame Brazing; Flame Process Relationships; Heating with Flames; Gases and Gas Mixtures; Hand-Torch-Brazing Technique; Automated Flame-Brazing Machines; Process Complexity Induction and Resistance Heating; Introduction; What Induction Heating offers in Brazing; Commonly Used Inductor Shapes; Design of Joints and the Associated Inductors; Resistance Heating Furnace Brazing; Introduction; Oxide Films; Brazing in a Reducing Atmosphere; TypesProcess Fundamentals and Operator Safety; Setting the Scene; Wetting; Capillary Flow; Health and Safety in Brazing Where Brazing Fits in Joining Technology; Which Specific Process Should Be Used?; What Are the Advantages of Brazing?; Basic Definitions and Principles; Capillary Attraction and Capillary Flow; Solidus, Liquidus, Melting Range and Eutectic; Working Temperature; Liquation; Process Window; Heat Pattern Development; Procedures; Component Cleanliness; Summary: Fundamental Rules for Successful Brazing Joint Design Fundamentals; Introduction; Basic Joint Design Configurations; Atmosphere Furnace Brazing Filler Materials, Fluxes and Brazing Paste Fundamentals; Introduction; Aluminium-Base Filler Materials; Silver-Base Filler Materials; Self-Fluxing CuP and AgCuP Alloys; Copper-Brazing Filler Materials; High-Temperature Nickel (and Cobalt) Filler Materials; Unclassified Platinum-Group Metal Filler Alloys; ISO Standardised Noble-Metal-Bearing Filler Materials; Brazing Fluxes; Brazing Alloy Pastes Brazing with Flames; Torches for Manual Flame Brazing; Flame Process Relationships; Heating with Flames; Gases and Gas Mixtures; Hand-Torch-Brazing Technique; Automated Flame-Brazing Machines; Process Complexity Induction and Resistance Heating; Introduction; What Induction Heating offers in Brazing; Commonly Used Inductor Shapes; Design of Joints and the Associated Inductors; Resistance Heating Furnace Brazing; Introduction; Oxide Films; Brazing in a Reducing Atmosphere; Types of Furnaces Used for Brazing; Brazing in Vacuum; Vacuum Brazing Process Parameters; Further General Comments on Vacuum Brazing; Vapour Pressure Brazing Aluminium; Introduction to the Technology of Aluminium Brazing; Use of Brazing for the Joining of Aluminium and its Alloys Troubleshooting and Some Common Brazing Problems; Identification of the Problem; Methodology of Troubleshooting; Are You Asking Yourself the Right Questions?; Flexibility; Seeking Advice; Frequently Asked Questions; Is It Possible to Braze Ceramics?; Can I Braze to the Surface of an Electroplated Item?; Which Filler Material Will Be Best for the Brazing of Tungsten Carbide Teeth to Circular Saw Blades?; Can Brass Be Successfully Brazed without Flux in a Reducing-Atmosphere Furnace?; Can Contact with Ammonia Result in the Corrosion of a Joint?; What Is the Maximum Temperature at Which a Brazed Joint Can Be Safely Used?; Can Tool Steels Be Brazed?; What Is Crevice Corrosion?; What Is the Trillium Project? Accreditation of Brazing Operators; Scope; Normative References; Approval of the Parts to Be Joined by Brazing; Terms and Definitions; Information and Requirements to be both agreed upon and Documented; Brazing Variables; The pBPS; Stage 4: Approval of Operators; Test Pieces and Test Specimens; Examination and Testing; Range of Approval; Brazing Procedure Approval Record Importance of the Joint Gap in Brazing; Some Initial Points about Brazing When a Flux Is Used; Some Initial Points about Fluxless Brazing Processes; Contribution of the Brazing Gap to Process Control; Brazing in conjunction with Flux; Process Parameters for the Use of Flux; High-Temperature Brazing in conjunction with a Flux; Fluxless Brazing Processes; Filler Metal Pre-Placement: Sandwich Joints; Conventional Pre-Placement of Filler Material Glossary Addendum A: SafeFlame® Appendix A: Selection Charts Appendix B: Filler Metal Comparison Tables … (more)
- Edition:
- 1st
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2016
- Extent:
- 1 online resource, illustrations (black and white, and colour)
- Subjects:
- 671.56
Brazing - Languages:
- English
- ISBNs:
- 9781498758451
- Related ISBNs:
- 9781498758444
- Notes:
- Note: Description based on CIP data; item not viewed.
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.138528
- Ingest File:
- 02_116.xml