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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
- Roll Groove Joints
- Press-connect Joints
- Push-connect Joints
- Mechanically Formed Extruded Outlets
- Appendix - Organizations Listing
- Tube Handbook - Desktop App
- Soldering Procedure Specification
- Brazing Procedure Specifications
- 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
Standard Tubes:
Types of Copper Tube
Long lasting copper tube is a favorite choice for plumbing, heating, cooling and other systems. In the United States, it is manufactured to meet the requirements of specifications established by ASTM International.
All tube supplied to these ASTM standards is a minimum of 99.9 percent pure copper. The copper customarily used for tube supplied to these specifications is deoxidized with phosphorus and referred to as UNS C12200 or DHP1 Copper. Other coppers may also be used.
Table 1 identifies the six standard types of copper tube and their most common applications.2 The table also shows the ASTM Standard appropriate to the use of each type along with a listing of its commercially available lengths, sizes and tempers.
Types K, L, M, DWV and Medical Gas tube are designated by ASTM standard sizes, with the actual outside diameter always 1/8-inch larger than the standard size designation. Each type represents a series of sizes with different wall thicknesses. Type K tube has thicker walls than Type L tube, and Type L walls are thicker than Type M, for any given diameter. All inside diameters depend on tube size and wall thickness.
Copper tube for air-conditioning and refrigeration field service (ACR) is designated by actual outside diameter.
"Temper" describes the strength and hardness of the tube. In the piping trades, drawn temper tube is often referred to as "hard" tube and annealed as "soft" tube. Tube in the hard temper condition is usually joined by soldering or brazing, using capillary fittings or by welding.
Tube in the soft temper can be joined by the same techniques and is also commonly joined by the use of flare-type and compression fittings. It is also possible to expand the end of one tube so that it can be joined to another by soldering or brazing without a capillary fitting—a procedure that can be efficient and economical in many installations.
Tube in both the hard and soft tempers can also be joined by a variety of "mechanical" joints that can be assembled without the use of the heat source required for soldering and brazing.
Footnotes:
1 Phosphorous-Deoxidized, High Residual Phosphorous Copper
2 There are many other copper and copper alloy tubes and pipes available for specialized applications. For more information on these products, contact CDA.
