beryllium nickel copper

  • C17510  CuNi1Be | Electrode holder rod

    C17510 CuNi1Be | Electrode holder rod

    C17510 Beryllium Copper Welding processes such as brazing, soldering, gas shielded arc welding, butt welding, seam welding, coated metal arc welding, and spot welding are recommended for C17510 copper alloy. Oxyacetylene welding is not recommended for this alloy. C17510 copper alloys can be hot worked between 648 and 885 degrees Celsius.

    C17510 beryllium copper alloys are highly preferred because they offer corrosion resistance, and its copper properties are high performance and high strength.

  • C17510 Beryllium Copper Round Bar (CuNi1Be) | Spot welding electrode arm

    C17510 Beryllium Copper Round Bar (CuNi1Be) | Spot welding electrode arm

    C17510 Beryllium Copper offers a high performance material that provides a unique combination of relatively high electrical and thermal conductivity and high stregnth. Class III Beryllium Copper is a heat treatable copper alloy with a high tensile stregnth. C17510 is utilized when a combination of very good mechanical stregnth along with moderate electrical and thermal conductivity is required. The hardness properties of C17510 Beryllium Copper are comparable to tool steel.

  • C17510 Class 3 Beryllium Copper Alloys

    C17510 Class 3 Beryllium Copper Alloys

    Class 3 C17510 is specifically recommended for projection welding dies, flash and butt welding dies, current carrying shafts, and bushings. Since they have higher strength than Class 2, C17510 is recommended for highly stressed welder structural current carrying members and heavy duty offset electrode holders.

    Class 3 C17510 is generally recommended for spot welding and seam welding steels, such as stainless steel, since it has high electrical resistance. The C17510 Alloy is heat treatable.

    The most common uses for C17510 are in those applications that need a lot of conductivity of temperature or electricity. Its ultimate tensile strength is 140 ksi while its hardness is RB 100. The conductivity of C17510 is about 45-60% of regular copper.

  • C17200 beryllium bronze copper plate – Fast heat dissipation

    C17200 beryllium bronze copper plate – Fast heat dissipation

    Beryllium nickel copper is a copper base alloy with supersaturated solid solution. It is a nonferrous alloy with good combination of mechanical properties, physical properties, chemical properties and corrosion resistance. After solution and aging treatment, it has the same high strength limit, elastic limit, yield limit and fatigue limit as the special steel; At the same time, it also has high conductivity, thermal conductivity, high hardness, wear resistance, high creep resistance and corrosion resistance. It is widely used in the manufacture of various mold inserts, replacing the welding electrode materials for molds with high precision and complex shapes made of steel, die-casting machines, injection molding machine punches, wear and corrosion resistant work, etc.

  • C17510 Beryllium Nickel Copper( CuNi2Be)

    C17510 Beryllium Nickel Copper( CuNi2Be)

    CuNi2Be or beryllium nickel copper UNS C17510 is a high conductivity copper-beryllium alloy used in applications requiring a combination of high thermal conductivity with moderate strength. CuNi2Be, supplied with certified mechanical properties, is fully heat-treated, and no additional treatment is needed. CuNi2Be is nonmagnetic and provides excellent resistance to thermal fatigue.

  • Beryllium Nickel Copper UNS C17510 – Welding arms, welding guns

    Beryllium Nickel Copper UNS C17510 – Welding arms, welding guns

    Applied to Welding arms, welding guns and spot welding materials on large mechanical welding equipment such as automobiles and ships

    C17510 or beryllium nickel copper UNS C17510 is a high conductivity copper-beryllium alloy used in applications requiring a combination of high thermal conductivity with moderate strength.  supplied with certified mechanical properties, is fully heat-treated, and no additional treatment is needed.is nonmagnetic and provides excellent resistance to thermal fatigue.