Product categories of Ternary Alloy Process, we are specialized manufacturers from China, Ternary Alloy Process, Ternary Alloy Plating suppliers/factory, wholesale high-quality products of Ternary Alloy Plating Part R & D and manufacturing, we have the perfect after-sales service and technical support. Look forward to your cooperation!
China Ternary Alloy Process Suppliers
"Jin Yuankang three alloy electroplating technology refers to the double plating covering three element alloy thin, of which three yuan alloy copper tin Zinc Alloy" refers to the "three element alloy and stainless steel similar appearance". The coefficient of resistance is 1.7 cm (RF-10 GHz), the conductivity of (106S/m) (RF-10 GHz), the contact resistance is less than 10m at cN 100, with the help of a number of micro active flux solderability. Jin Yuankang ternary alloy electroplating for high frequency connection, in a wide frequency range the maximum transfer rate requirements, in addition, the "Three Element Alloy Plating technology can make the RF devices in industrial gases, perspiration and other corrosion or scratch, keep good appearance, without the protection of the silver coating even in normal circumstances rapid oxidation. "Three alloy plating technology" combines the excellent electrical conductivity of silver and the corrosion resistance of the alloy with "three elements", and the thin coating of the alloy with the value of in the range of 10GHz does not affect the good conductivity of silver. "Three alloy plating technology" does not contain magnetic elements, "plating alloy technology of three yuan" to prevent surface oxidation and film, the use of the surface will not lose luster. The characteristics of three element alloy plating surface to prevent scratches, not sensitive to damage, but also to prevent the silver plated cold welding and assembling with good damage caused by non. Compared with the silver plating, the "three element alloy technology" in the assembly of the device is especially to reduce the loss caused by the collision.