We off er many different corrosion and/or temperature resistant roller chain goods to suit the certain requirements of almost any application. These range from plated or coated carbon steels to a variety of diff erent stainless steel kinds that may be selected primarily based within the preferred blend of wear resistance, power, corrosion resistance and resistance to extremes in working temperatures.
Appropriate for mild corrosive circumstances this kind of as outside services. Typically applied for decorative purposes. Chain elements are plated prior to assembly for uniform coverage of inner elements.
Style 304 Stainless
Our standard stainless steel solution off ers excellent resistance to corrosion and operates effectively over a wide variety of temperatures. This material is slightly magnetic due to the get the job done hardening on the components throughout the manufacturing processes.
Style 316 Stainless
This material possess better corrosion and temperature resistance compared with Kind 304SS. It truly is normally utilized in the food processing market because of its resistance to strain corrosion cracking in the presence of chlorides such as are uncovered in liquid smoke. The magnetic permeability of this material is extremely very low and it is generally viewed as nonmagnetic on the other hand it can be not regarded to become prspark oof.
600 Series Stainless
Pins, bushings and rollers are produced from 17-4PH stainless steels which can be hardened for improved resistance to wear elongation. The corrosion resistance of this chain is much like
Form 304SS. The working temperature array of this material nonetheless isn’t as terrific as Variety 304SS.
A large strength 304 stainless steel chain. Offered in two versions which use diff erent mechanical confi gurations to get supplemental strength. Each versions off er increased functioning loads because of a better pin/bushing bearing region along with a exceptional labyrinth sort seal that aids avoid the penetration of abrasive foreign resources to the inner sporting elements.