Title :
Wear resistance of nickel and nickel phosphorus alloy electrodeposits
Author :
Holden, Clarence A. ; Opila, Robert L., Jr. ; Law, Henry H. ; Crane, Glen R.
Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
The wear resistance of gray Ni(Cl bath) and Ni/P deposits was evaluated using a crosswire test method that simulates the wear that develops on plug-in type printed wiring boards. All wear samples were lubricated with 2-wt.% five- or six-ring polyphenylether fluid. Some samples plated with a thin layer of cobalt-hardened gold were also examined. Wear test results showed that (1) gray Ni/P deposits plated from nearly pH ammoniacal bath are more wear-resistant for up to 100 wear cycles than nickel deposits plated from an acid chloride bath; and (2) hard gold flashed Ni/P deposits are more wear-resistant for up to 5000 wear cycles at a 200-g load than hard gold flashed nickel deposits plated from an acid chloride bath. A minimum of 127-nm hard gold provides adequate wear.<>
Keywords :
electric connectors; electrical contacts; electrodeposits; nickel; nickel alloys; phosphorus alloys; wear testing; 127 nm; Au:Co film; Ni electrodeposits; Ni-P alloy electrodeposits; crosswire test method; electrodeposits; plug-in type printed wiring boards; polyphenylether fluid lubrication; wear resistance; wear samples; Cobalt; Contact resistance; Cranes; Gold; Life estimation; Microscopy; Nickel alloys; Surface structures; Testing; Wiring;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
