Free Cutting Beryllium Copper Rod
Free Cutting Beryllium Copper Rod,
Copper C17200,
Developed high-precision beryllium copper seamless pipe for 5G base station. At present, it is the only domestic manufacturer of high-quality beryllium copper seamless pipe with stable quality and mass supply. The outer diameter can be 1.0 ~ 25mm and the wall thickness is 0.08 ~ 6mm , The tolerance can be accurate to ± 0.01mm. The company’s regular supply of 2.0 * 1.6 2.0 * 1.8 3.5 * 3.2 3.95 * 3.65 and other high-precision beryllium copper seamless pipes have been widely used in 5G base station equipment such as Huawei, ZTE and Nokia.
1. Chemical Composition of C17300 Tube
Model |
Be |
Ni+Co |
Ni+Co+Fe |
Pb |
Cu |
C17300 |
1.8-2.0 |
≥0.20 |
≤0.6 |
0.2-0.6 |
Remnant |
2. Physical Properties of C17300 Tube
State |
Tensile Strength |
Yield Strength |
Rockwell Hardness |
4×DA |
Electrical Conductivity |
||
Mpa |
0.2%,Mpa |
B |
Elongation |
IACS,% |
|||
|
|
|
min% |
|
|||
TB00 |
Solid Solution Heat Treatment (A) |
410-590 |
140 |
45-85 |
20 |
– |
|
TD04 |
Hardening State(H) |
Diameter<10mm |
620-900 |
|
88-103 |
|
|
|
|
|
|||||
Diameter:10-25mm |
620-860 |
|
88-102 |
8 |
>17 |
||
Diameter25-75mm |
590-830 |
520 |
88-101 |
|
|
||
State |
Tensile Strength |
Yield Strength |
Rockwell Hardness |
4×DB |
Electrical Conductivity |
||
Mpa |
0.2%,Mpa |
B |
Elongation |
||||
|
|
|
min% |
||||
TF00 |
Heat Treatment of Deposit(AT) |
1140-1380 |
1000 |
36-42 |
4 |
– |
|
TH04 |
Hardening & Deposit Heat Treatment of Settlement(HT) |
1240-1580 |
1070 |
38-44 |
2 |
>22 |
3. Characteristic of C17300 Tube
High strength, high conductivity, high fatigue resistance, high wear resistance, non-magnetic
4. Application of C17300 Tube
It is mainly used for 5G base station, coaxial connector, photomultiplier tube, high precision instrument, military aerospaceC17200 is also known as Alloy 25 and is the most commonly utilized beryllium copper alloy and is notable for exhibiting the highest strength and hardness compared to commercial copper alloys. Its strength and hardness is similar to that of steel.