Cuco2Be High Conductivity Copper-Beryllium Cobalt Alloy Plate is a high-performance metal material with excellent electrical conductivity and corrosion resistance. It is composed of a variety of elements such as copper, beryllium, and cobalt, and is prepared through a precision alloying process.
Cuco2Be alloy plates have high electrical conductivity, which can effectively transfer and disperse current, reducing energy loss and heat generation. Its conductivity is better than that of traditional copper alloys, so it is widely used in fields such as electricity, electronics and communications. In addition, Cuco2Be alloy plate also has good corrosion resistance and is able to maintain stable performance under various harsh environmental conditions.
In the process of preparing Cuco2Be alloy plate, advanced alloying process is adopted, copper, beryllium and cobalt and other elements are mixed in a certain proportion, and after multiple processes such as high-temperature smelting, rolling, and heat treatment, the alloy plate with excellent performance is finally obtained. The preparation process of this alloy plate is complex and technically demanding, requiring strict quality control and fine process parameter adjustment.
Cuco2be alloy plate has a wide range of applications, in addition to being widely used in the fields of electricity, electronics and communications, it can also be used in aerospace, ships, automobiles and other fields. In the aerospace field, CuCO2be alloy plate can be used to manufacture conductive structural parts for aircraft and satellites to improve their electrical conductivity and corrosion resistance; In the field of ships, it can be used to manufacture conductive equipment and components of ships to improve their safety and stability; In the automotive field, Cuco2Be alloy plates can be used to manufacture conductive parts and connectors for automotive engines to improve their conductivity and corrosion resistance.
In conclusion, Cuco2Be high conductivity copper-beryllium cobalt alloy plate is a high-performance metal material with excellent electrical conductivity and corrosion resistance. Its preparation process is complex and the technical requirements are high, but it has a wide range of applications and can be applied to many fields. With the continuous progress of science and technology and the increasing application demand, Cuco2be alloy plate will be more widely used and developed.
CuCO2be high conductivity copper-beryllium cobalt alloy plate
Number: CW104C
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 cuco2be ( cw104c )
fe ni co be others -
max 0.2 max 0.3 2 - 2.8 0.4 - 0.7 total 0.5 cu - remainder
Mechanical properties of CU-CO2BE(CW104C) grade materials
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
Nature Cu-CO2BE
Modulus of elasticity = 140 kn mm
Conductivity = 28 ms m;
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