Title :
Effects of cracks on contacts operating under high contact force
Author :
Francisco, H.A. ; Wallace, J.
Author_Institution :
Deringer Mfg. Co., Mundelein, IL, USA
Abstract :
Cracks in silver tin oxide contacts were produced by varying cone angles during cold heading. The investigation examined which factors affected material erosion and contact reliability. The results indicated that crack size alone did not accelerate material erosion during electrical testing. The electrical loads used (inductive and resistive) during testing did not have an effect on contact performance when cracks were present on the contact´s head and contact force was maintained at 0.32 lbs./146 grams. Alternating the temperature (68°F (20°C) and 257°F (125°C)) every 25,000 and 62,500 cycles during inductive and resistive load did not affect contact material erosion. The factors which degraded contact material erosion were crack size, electrical load (inductive/resistive) and contact closing force.
Keywords :
cold working; cracks; electrical contacts; failure analysis; life testing; silver; tin compounds; wear; 257 degF; 68 degF; AgSnO2; cold heading; cone angles; contact closing force; contact force; contact performance; contact reliability; cracks; electrical testing; inductive load; material erosion; resistive load; Cadmium compounds; Contacts; Electric resistance; Maintenance; Manufacturing; Silver; Surface cracks; Surface finishing; Testing; Tin;
Conference_Titel :
Electrical Contacts, 1994. Proceedings of the Fortieth IEEE Holm Conference on Electrical Contacts
Print_ISBN :
0-7803-2133-2
DOI :
10.1109/HOLM.1994.636844
