Vibration-resistant Type

Lead terminals that are used in the environment under violent vibration such as automobiles could be fractured because of to vibration stress.

Kohoku Kogyo analyzed the start mechanism of fracture, and devised the shape for optimizing stress distribution of lead terminals.

Compared with the unprocessed product (right), the vibration-resistant type (left) has a shape that relax drastic thickness changes from the round bar part to the pressed part.

Comparison diagram between standard type and quake-resistant Type

Compared with the unprocessed item (upper), it is clear that the stress applied during vibration (red area) can be reduced for the vibration-resistant type (lower).

Comparative simulation of standard type and quake-resistant type

Inquiries about lead terminals for alminium electrolytic capacitor