C10200 is a high-purity oxygen-free copper material widely used in various industrial fields due to its outstanding physical and chemical properties. As a type of oxygen-free copper, C10200 boasts a high purity level, typically with a copper content of no less than 99.95%. This high purity enables it to exhibit excellent electrical conductivity, thermal conductivity, corrosion resistance, and workability.
Excellent Electrical and Thermal Conductivity
One of the most notable characteristics of C10200 material is its superior electrical conductivity, which can reach up to 101% IACS (International Annealed Copper Standard). This extremely high electrical conductivity makes it an ideal choice for the electronics and electrical industries, particularly in applications requiring low resistance and high efficiency. Additionally, C10200 demonstrates outstanding thermal conductivity, effectively transferring heat, which makes it widely used in heat sinks, heat exchangers, and motor rotors.
Superior Corrosion Resistance
The high purity of C10200 material not only enhances its electrical and thermal conductivity but also improves its corrosion resistance. The oxygen-free process removes oxygen and other impurities during manufacturing, significantly enhancing the material's oxidation and corrosion resistance in various environments. This feature makes C10200 particularly suitable for corrosive environments, such as high humidity, high salinity, and marine engineering, chemical equipment, and new energy equipment sectors.
Excellent Workability
Thanks to its high purity and fine microstructure, C10200 material has excellent workability, including outstanding ductility, malleability, and weldability. It can be formed and manufactured through various processes, such as cold rolling, hot rolling, and drawing, and can also undergo welding and brazing. This provides great flexibility and possibilities for realizing complex designs.
Applications in New Energy Vehicles
Amid the rapid development of new energy vehicles, C10200 material, with its excellent comprehensive properties, has become a crucial material in the core components of electric vehicles. Its high electrical conductivity makes it perform excellently in battery connectors and BUSBARs (bus bars); its good thermal conductivity and corrosion resistance ensure a longer service life and higher reliability in components such as heat sinks and thermal management systems.
Future Development Prospects
With the growing demand for high efficiency, energy saving, and environmental protection, the application prospects of C10200 material in industrial and electronic fields will be even broader. In the future, with technological advancements and improvements in manufacturing processes, C10200 material is expected to play an even more critical role in fields with higher requirements, supporting sustainable development across various industries.
In conclusion, C10200 oxygen-free copper material, with its superior physical and chemical properties, has played and will continue to play an irreplaceable role in multiple industries. Its applications not only promote technological advancement in related fields but also contribute significantly to improving equipment performance and extending service life.
C10200 Mechanical Properties
|
Alloy Grade |
Temper |
Tensile strength (N/mm²) |
Elongation % |
Hardness |
|||||||||||||||
|
GB |
JIS |
ASTM |
EN |
GB |
JIS |
ASTM |
EN |
GB |
JIS |
ASTM |
EN |
GB |
JIS |
ASTM |
EN |
GB(HV) |
JIS(HV) |
ASTM(HR) |
EN |
|
TU1 |
C1020 |
C10200 |
CU-0F |
M |
O |
H00 |
R200/H040 |
≥195 |
≥195 |
200-275 |
200-250 |
≥30 |
≥30 |
|
≥42 |
≤70 |
|
|
40-65 |
|
Y4 |
1/4H |
H01 |
R220/H040 |
215-295 |
215-285 |
235-295 |
220-260 |
≥25 |
≥20 |
≥33 |
60-95 |
55-100 |
40-65 |
||||||
|
Y2 |
1/2H |
H02 |
R240/H065 |
245-345 |
235-315 |
255-315 |
240-300 |
≥8 |
≥10 |
≥8 |
80-110 |
75-120 |
65-95 |
||||||
|
H |
H03 |
R290/H090 |
≥275 |
285-345 |
290-360 |
|
≥4 |
≥80 |
90-110 |
||||||||||
|
Y |
H04 |
295-395 |
295-360 |
≥3 |
|
90-120 |
|||||||||||||
|
H06 |
R360/H110 |
325-385 |
≥360 |
|
≥2 |
≥110 |
|||||||||||||
|
T |
H08 |
≥350 |
345-400 |
|
|
≥110 |
|||||||||||||
|
H10 |
≥360 |
|
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Physicochemical Properties
|
Alloy |
Component % |
Density |
Elasticity Modulus (60)GPa |
Coefficient of linear expansion×10-6/0C |
Conductivity %IACS |
Heat conductivity |
|
C10220 |
Cu≥99.95 |
8.94 |
115 |
17.64 |
98 |
385 |
Post time: Sep-10-2024