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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
- Applications
- Resources & Tools
- Benefits of Copper Plumbing
- Best Buy in Plumbing
- Working with Plumbing Subcontractors: Doing Your Homework
- Homebuyers Prefer Copper
- Installation Support
- Working with Plumbing Subcontractors: Problem Solving
- Working with Plumbing Subcontractors: Running the Job
- Selling with Copper: Showcasing Your Copper
- Selling to the Residential Market
- Selling with Copper
- Working with Plumbing Subcontractors: Role in Your Business
- Builder Satisfaction Program
- Copper Brochures
- Why Your Builder Chose Solid Brass Hardware
- Why Your Builder Chose Solid Brass Plumbing Fixtures
- Why Your Builder Chose Copper Communications Wiring
- Why Your Builder Chose Copper Flashing
- Why Your Builder Chose Copper Plumbing
- Why Your Builder Chose All Copper Wiring
- Why Your Builder Chose Flexible Copper Tube for Gas Distribution
- Why Choose Copper Plumbing
- Consumer Frequently Asked Questions (FAQs)
- Manufacturer's 50-Year Warranty
- Benefits of Copper Plumbing
- Installing Copper Piping Systems
- Technical References
- Guide Specifications on Plumbing
- Copper Tube Handbook
- Standard Tubes
- Selecting the Right Tube for the Job
- Design and Installation Data
- Technical Data
- Bending
- Joining Methods
- Fittings, Solders, Fluxes
- Soldered Joints
- Brazed Joints
- Flared Joints
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- Press-connect Joints
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- Mechanically Formed Extruded Outlets
- Appendix - Organizations Listing
- Tube Handbook - Desktop App
- Soldering Procedure Specification
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- Chillers
- Fire Sprinkler Systems Application Handbook
- How Copper Tube is Certified
- Lead Free Requirements of Safe Drinking Water Act
- Copper & Copper Alloy Tube, Pipe & Fittings Standards
- HVAC/R
- Copper DX Geothermal Heat Pumps
Soldered Joints:
Heating
WARNING: When dealing with an open flame, high temperatures and flammable gases, safety precautions must be observed as described in ANSI/ASC Z49.1.
Begin heating with the flame perpendicular to the tube (Figure 27, position 1 and Figure 22). The copper tube conducts the initial heat into the fitting cup for even distribution of heat in the joint area. The extent of this preheating depends upon the size of the joint. Preheating of the assembly should include the entire circumference of the tube in order to bring the entire assembly up to a suitable preheat condition. However, for joints in the horizontal position, avoid directly preheating the top of the joint to avoid burning the soldering flux. The natural tendency for heat to rise will ensure adequate preheat of the top of the assembly. Experience will indicate the amount of heat and the time needed.
Next, move the flame onto the fitting cup (Figure 27, position 2 and Figure 23). Sweep the flame alternately between the fitting cup and the tube a distance equal to the depth of the fitting cup (Figure 27, position 3). Again, preheating the circumference of the assembly as described above, with the torch at the base of the fitting cup (Figure 27, position 4), touch the solder to the joint. If the solder does not melt, remove it and continue heating.
Figure 22. Preheating Tube
Figure 23. Preheating FittingCAUTION: Do not overheat the joint or direct the flame into the face of the fitting cup. Overheating could burn the flux, which will destroy its effectiveness and the solder will not enter the joint properly.
When the solder melts, apply heat to the base of the cup to aid capillary action in drawing the molten solder into the cup towards the heat source.
Figure 24. Electric Resistance Hand Tool
Figure 27. Schematic of Solder JointThe heat is generally applied using an air-fuel torch. Such torches use acetylene or an LP gas. Electric resistance soldering tools can also be used (Figure 24 above). They employ heating electrodes and should be considered when an open flame is a concern.
