Contact Plating Solutions for High-Frequency Applications
Sealing 691 is an organic antitarnish process based on nanotechnology: special nanopolymers absorb on the metal surface and crosslink to form a protective layer a few nanometers thick. Sealing 691 provides invisible protection from tarnish and wear, while preserving precious metal brightness.
Sealing 691’s aqueous formula is chrome-free and RoHS compliant. It will not compromise solderability or bonding capacity, has low contact resistance, and preserves metal's inherent lubricity, making it suitable for plug connectors and electrical contacts
Miralloy® is a cost-effective alternative to silver, palladium and nickel for many connector and sensor applications. The newest Miralloy product, 2851, operates at 10 ASF, which is 25-43% faster than competitive products, providing substantial advantages in cycle time and cost.
Miralloy is an advanced alloy that deposits up to 15 μm with exceptional uniformity. Its average composition is 51% copper, 33% tin and 17% zinc. Deposits resist abrasion and corrosion, and are non-magnetic, so they're well suited to high frequency applications.
Miralloy has earned widespread acceptance for use on HF connectors, contact elements and solder pins. It is plated using standard rack equipment.
NIPHOS® 968 – bright nickel-phosphorus alloy was developed to plate steel rods in hydraulics and shock absorbers: nickel-phosphorus layers are combined with chromium as a final layer. This combination allows lower thicknesses of the chromium and dramatically improves wear properties of the complete system. Niphos products generate huge energy savings as EN replacements, and exhibits less internal stress compared with existing nickel-phos electrolytes. Also available, Niphos 965 for reel-to-reel finishes.
MMO Anodes – or Mixed Metal Oxide Anodes, are manufactured from precious iridium and ruthenium oxides, sometimes combined with non-precious tantalum and titanium oxides. Solutions of these metals are applied in layers in a multi-stage process; they are subsequently transformed in a thermal process into their catalytically effective shape.