CW110C is a highly conductive copper-beryllium nickel alloy plate that exhibits unmatched superiority in its properties and characteristics in a wide range of applications. As an excellent conductive material, it has a wide range of applications in power transmission, electronic equipment manufacturing, electromagnetic shielding, etc.
Copper-beryllium nickel alloy plate CW110C has extremely high electrical and thermal conductivity, which can transfer a large amount of current and heat in a very short time. This makes it perform well in high-current, high-frequency and high-efficiency power systems, effectively reducing energy loss and temperature rise, and improving the working efficiency and stability of the equipment.
In addition to its applications in power transmission, the copper-beryllium nickel alloy plate CW110C also plays an important role in the manufacture of electronic devices. Due to its excellent electrical conductivity and corrosion resistance, it is widely used in the manufacture of key components such as electronic components, connectors, terminals, etc. These components play a vital role in the proper functioning of electronic devices, and the high performance of copper-beryllium nickel alloy plates ensures their stability and reliability.
In addition, the copper-beryllium nickel alloy plate CW110C also has excellent electromagnetic shielding properties. Electromagnetic interference is a common problem in electronic devices and communication systems, which can lead to degraded device performance, signal distortion, and even device damage. By using copper-beryllium nickel alloy plate as an electromagnetic shielding material, the impact of electromagnetic interference can be effectively reduced and the stability and reliability of the equipment can be improved.
In conclusion, copper-beryllium nickel alloy plate CW110C, as a highly conductive material, plays an important role in the fields of power transmission, electronic equipment manufacturing and electromagnetic shielding. Its excellent performance and wide application prospect make it an important supporting material for the development of modern industry and science and technology.
CW110C High Conductivity Copper-Beryllium Nickel Alloy Plate
Number: CW110C
Classification: Low alloy copper alloy
Density 88 g/cm³
Standard: EN 1652:1998 Copper and copper alloys. Plates, sheets, strips and rounds for general purpose
EN 12163:1998 Copper and Copper Alloys. Universal rod
EN 12166:1998 Copper and copper alloys. Universal wires
EN 12167:1998 Copper and copper alloys. Universal profiles and rectangular rebar
EN 12165:1998 Copper and copper alloys. Forged and unwrought blanks
EN 1654:1998 Copper and Copper Alloys. Strips for springs and connectors
EN 12420:1999 Copper and copper alloys. Forgings
EN 13148:2001 Copper and copper alloys. Hot-dip tinned strip
chemical composition % of grade cw110c
fe ni co be others -
max 0.2 1.4 - 2.2 max 0.3 0.2 - 0.6 total 0.5 cu - remainder
Mechanical properties of CW110C grade alloy
RM - Tensile Strength (MPa) (R240) 240
RM - Tensile Strength (MPa) (R480) 480
RM - Tensile Strength (MPa) (R650) 650
rp0.2 0.2% Proof Strength (MPa) (R240) 220
rp0.2 0.2% Proof Strength (MPa) (R480) 370
rp0.2 0.2% Proof Strength (MPa) (R650) 500
a-Minimum elongation at break (%)R240)20
A-Minimum elongation at break (%)R480)2
a-Minimum elongation at break (%)R650)8
A-minimum elongation lo = 50 mm (%) r240) 20
A-minimum elongation lo = 50 mm (%) R480) 2
A-minimum elongation LO = 50 mm (%) R650) 8
Vickers hardness (HV) :(H060) 60-130
Vickers hardness (HV) :(H140) 140-180
Vickers hardness (HV) :(H200) 200-280
Performance cu-ni2be
Modulus of elasticity = 140 kn mm
Conductivity = 28 ms m;
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