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Tube, Pipe & Fittings
- Overview
- Key Copper Benefits
- TechCorner
- Copper Piping Systems and Acoustical Sealants
- Soldering and Brazing Explained
- Can Copper Tube Be Used in Steam and Steam Condensate Piping Systems?
- How to Prevent Corrosion of Copper Tube in Underground or Buried Applications
- Is It True That Electrolysis Can Cause My Copper Tube To Fail?
- Corrosion of Mixed Metal Fire Sprinkler Systems
- Why Do I Have Blue/Green Staining Of My Bathroom Fixtures
- Is There A Problem With Embedding Copper Tube In Concrete?
- Designing and Installing Copper Piping Systems
- Glossary of Technical Terms
- Copper Piping Systems and Acoustical Sealants
- Project Managers
- DIY: Do It Proper With Copper Video Series
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- Resources & Tools
- Benefits of Copper Plumbing
- Best Buy in Plumbing
- Working with Plumbing Subcontractors: Doing Your Homework
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- Installation Support
- Working with Plumbing Subcontractors: Problem Solving
- Working with Plumbing Subcontractors: Running the Job
- Selling with Copper: Showcasing Your Copper
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- Why Your Builder Chose Copper Communications Wiring
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- Consumer Frequently Asked Questions (FAQs)
- Manufacturer's 50-Year Warranty
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- Design and Installation Data
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- Bending
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- Appendix - Organizations Listing
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Brazed Joints:
Brazing Filler Metals
Brazing filler metals suitable for joining copper tube are of two classes:
- the BCuP series alloys containing phosphorus
- the BAg series alloys containing a high silver content
The two classes differ in their melting, fluxing and flowing characteristics and this should be considered in selection of a filler metal (See Table 12.) While any of the listed filler metals may be used, those most commonly used in plumbing, HVAC refrigeration and fire sprinkler systems are BCuP-2 (for closer tolerances), BCuP-3, 4 or 5 (where close tolerances cannot be held) and BAg-1, BAg-5 and BAg-7. The BCuP series filler metals are more economical than the BAg series, and are better suited for general piping applications. BAg series filler metals should be used when joining dissimilar metals, or the specific characteristics of the BAg series filler metals are required. For joining copper tube, any of these filler metals will provide the necessary strength when used with standard solder-type fittings or commercially available short-cup brazing fittings.
According to the American Welding Society (AWS), the strength of the brazed joint will meet or exceed that of the tube and fitting being joined when the joint overlap and the depth of the filler metal penetration is a minimum of three times the thickness of the thinner base metal (tube or fitting), and a well-developed fillet is present.
The strength of a brazed copper tube joint does not vary much with the different filler metals but depends mainly on maintaining the proper clearance between the outside of the tube and the cup of the fitting. Copper tube and solder-type fittings are accurately made for each other, and the tolerances permitted for each assure the capillary space will be within the limits necessary for a joint of satisfactory strength.
The rated internal working pressures of brazed copper tube systems at service temperatures up to 350° F (the temperature of saturated steam at 120 psi) are shown in Table 4a. These pressure ratings should be used only when the correct capillary space has been maintained.
