What is C12000 copper?
C12000 Copper , also known as Phosphorized, Low Residual Phosphorus (DHP) Copper, is a deoxidized copper with a small amount of phosphorus, which improves its corrosion resistance and makes it suitable for welding and brazing applications. This alloy is known for its excellent formability, high thermal and electrical conductivity, and good corrosion resistance.
We provide TP1/C12000 copper pipes
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Chemical Composition
The chemical composition of UNS C12000 copper is outlined in the following table.
| Element | Content (%) |
|---|---|
| Cu | 99.9 |
| P | 0.008 |
Physical Properties
The physical properties of UNS C12000 copper are tabulated below.
| Properties | Metric | Imperial |
|---|---|---|
| Density | 8.89 g/cm3 | 0.321 lb/in3 |
| Melting point | 1083°C | 1981°F |
Mechanical Properties
The following table shows mechanical properties of UNS C12000 copper.
| Properties | Metric | Imperial |
|---|---|---|
| Tensile strength, ultimate | 221 - 393 MPa | 32100 - 57000 psi |
| Tensile strength, yield (depending on temper) | 69.0 - 365 MPa | 10000 - 52900 psi |
| Elongation at break ( in 101.6 mm (4 in.)) | 55% | 55% |
| Machinability (UNS C36000 (free-cutting brass) = 100%) | 20% | 20% |
| Poisson's ratio | 0.34 | 0.34 |
| Elastic modulus | 117 GPa | 16970 ksi |
Equivalents of UNS C12000 Copper
| Standard | Designation | Name / Description | Key Similarities |
|---|---|---|---|
| UNS (USA) | C12000 | Phosphorus Deoxidized, Low Residual Phosphorus (DLP) | Base Standard |
| ASTM (USA) | B152, B124 | C12000 | |
| CDA (USA) | 120 | - | Industry Standard |
| ISO | Cu-DLP | Copper - DLP (Chemical Symbol) | Closest ISO Chemical Designation |
| EN (Europe) | Cu-DLP (EN 1412) CW024A (EN 13599) |
Copper - DLP | Chemical Composition Equivalent |
| JIS (Japan) | C1201 | Phosphorus Deoxidized Copper | Nearly Identical |
| GB (China) | TP1 | Phosphorus Deoxidized Copper | Note: TP1 is generally considered the closest match, though phosphorus content may differ slightly. |
| DIN (Germany) | SF-Cu (DIN 1708) | Deoxidized Copper with Low Residual Phosphorus | |
| BS (UK) | C106 | Phosphorus Deoxidized Copper for General Purposes |
C12000 vs C10200
| Feature | UNS C12000 | UNS C10200 |
|---|---|---|
| Common Name | Phosphorus Deoxidized, Low Residual P (DLP) | Oxygen-Free Copper (OF) |
| Key Composition | Cu ≥99.90%, P: 0.004-0.012% | Cu ≥99.95%, O ≤0.0005% |
| Oxygen Content | Very Low | Extremely Low (Virtually Zero) |
| Deoxidizer | Phosphorus | None (Process-controlled) |
| Electrical Conductivity | Very High (~100% IACS) | Highest (~101%+ IACS) |
| Thermal Conductivity | Very High | Slightly Higher |
| Formability & Ductility | Excellent | Superior (especially in annealed state) |
| Weldability & Brazability | Excellent (due to P deoxidation) | Excellent (requires inert atmosphere) |
| Resistance to Hydrogen Embrittlement | Poor (in reducing atmospheres) | Very Good (no Cu₂O to react) |
| Typical Applications | High-conductivity busbars, heat exchangers, tubing | High-vacuum electronics, glass-metal seals, waveguides, sputtering targets |
Choose C10200 (Oxygen-Free Copper) when your priority is:
Maximum Purity & Conductivity: For critical electrical/electronic components (e.g., waveguides, semiconductor parts).
High-Temperature in Hydrogen: For service in reducing atmospheres (e.g., hydrogen furnaces, brazing atmospheres) where hydrogen embrittlement is a risk.
Superior Ductility & Forming: For severe cold working and deep drawing applications.
High-Vacuum or Sealing Applications: Where outgassing or oxidation at high temperatures must be absolutely minimized (e.g., glass-metal seals, accelerator parts).
Choose C12000 (Phosphorus Deoxidized Copper) when your priority is:
Excellent Conductivity at Lower Cost: For high-performance busbars, electrical conductors, and heat exchangers where C10200's marginal gain isn't justified.
Easier Joining in Air: Its deoxidized nature makes it very forgiving for welding and brazing in standard shop environments.
General High-Conductivity Applications: Where hydrogen embrittlement is not a concern (e.g., standard electrical components, non-reducing atmosphere heat transfer).
Good Balance of Performance and Practical Fabrication.
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Dimensional Range Table
In plumbing and HVAC standards, copper tubing is commonly classified into three main types based on wall thickness: Type K, Type L, and Type M.
Type K: Has the thickest wall. It is the strongest and most durable, primarily used for underground burial, high-pressure applications, and where the highest level of protection is required.
Type L: Has a medium wall thickness. It is the most common and versatile type, widely used for residential and commercial water supply lines (hot and cold) and for many HVAC applications.
Type M: Has the thinnest wall. It is suitable for above-ground, low-pressure residential water supply lines and some drainage applications, offering a cost-effective solution where conditions allow.
The outside diameter (OD) is the same for all three types within a given nominal size. The difference lies in the inner diameter (ID), which decreases as the wall gets thicker.
| Nominal Size (inches) | Type K | Type L | Type M |
|---|---|---|---|
| Outside Diameter (OD) | Same for all types | ||
| Wall Thickness | Thickest | Medium | Thinnest |
| Inside Diameter (ID) | Smallest | Medium | Largest |
| 1/2" | OD: 0.625" ID: 0.527" Wall: 0.049" |
OD: 0.625" ID: 0.545" Wall: 0.040" |
OD: 0.625" ID: 0.569" Wall: 0.028" |
| 3/4" | OD: 0.875" ID: 0.745" Wall: 0.065" |
OD: 0.875" ID: 0.785" Wall: 0.045" |
OD: 0.875" ID: 0.811" Wall: 0.032" |
| 1" | OD: 1.125" ID: 0.995" Wall: 0.065" |
OD: 1.125" ID: 1.025" Wall: 0.050" |
OD: 1.125" ID: 1.055" Wall: 0.035" |
Our factory
Our factory is built for precision and scale in producing copper rods, tubes, plates, bars, wires, and strips. We operate advanced equipment such as upward continuous casting systems for oxygen-free copper rods, CNC-controlled pilger mills for seamless tubes, and automated strip rolling lines with real-time thickness monitoring. All products are manufactured to meet ASTM, DIN, and customer-specific standards, with process control at every stage. Our quality assurance includes metallographic analysis, conductivity testing, and surface quality inspection via optical comparators. From raw material to finished product, we ensure consistency, performance, and on-time delivery for industrial and OEM partners globally.

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Copper product packaging
Our copper product packaging always prioritizes safety protection and professional identification. Copper rods and profiles are securely bundled with steel straps and fixed on reinforced wooden pallets, with waterproof and moisture-proof film wrapped around the exterior. Copper tubes are equipped with protective caps on both ends and packaged in custom-designed cartons or wooden crates with internal cushioning materials. Copper plates and strips are interleaved with anti-rust paper and fully encapsulated in steel-edged crates. All packages are affixed with clear product labels, specifications, and moisture-proof tags. For high-purity copper materials or those with special application requirements (such as oxygen-free copper wires and high-end copper strips), we also offer professional nitrogen-filled sealed packaging to ensure complete oxygen isolation during transportation and storage, preventing oxidation and maintaining the optimal performance and surface condition of the materials.


















