Corrosion and Temperature Resistant Roller Chain

Standard Facts
We off er various corrosion and/or temperature resistant roller chain goods to suit the unique requirements of practically any application. These vary from plated or coated carbon steels to several diff erent stainless steel forms that may be chosen based over the sought after blend of wear resistance, power, corrosion resistance and resistance to extremes in operating temperatures.
Nickel Plating
Ideal for mild corrosive circumstances such as outdoor services. Typically made use of for decorative purposes. Chain elements are plated before assembly for uniform coverage of inner elements.
Kind 304 Stainless
Our normal stainless steel products off ers superb resistance to corrosion and operates effectively more than a wide choice of temperatures. This material is slightly magnetic due to the work hardening of your parts through the manufacturing processes.
Sort 316 Stainless
This materials possess better corrosion and temperature resistance in contrast with Type 304SS. It is normally used in the foods processing sector because of its resistance to worry corrosion cracking during the presence of chlorides such as are uncovered in liquid smoke. The magnetic permeability of this material is very minimal and it is often thought of nonmagnetic even so it is not regarded for being prspark oof.
600 Series Stainless
Pins, bushings and rollers are made from 17-4PH stainless steels which might be hardened for improved resistance to dress in elongation. The corrosion resistance of this chain is just like
Sort 304SS. The working temperature range of this materials nonetheless isn’t as good as Type 304SS.
Mega Chain:
A large strength 304 stainless steel chain. Obtainable in two versions which use diff erent mechanical confi gurations to get supplemental strength. Each versions off er greater functioning loads due to a better pin/bushing bearing location plus a unique labyrinth variety seal that assists protect against the penetration of abrasive foreign resources towards the internal wearing elements.