Standard Data
We off er several different corrosion and/or temperature resistant roller chain items to suit the distinct needs of practically any application. These vary from plated or coated carbon steels to a variety of diff erent stainless steel types that may be chosen based mostly within the desired combination of put on resistance, power, corrosion resistance and resistance to extremes in working temperatures.
Nickel Plating
Appropriate for mild corrosive conditions such as outside support. Frequently utilized for decorative functions. Chain components are plated before assembly for uniform coverage of inner elements.
Style 304 Stainless
Our standard stainless steel product off ers excellent resistance to corrosion and operates successfully above a broad choice of temperatures. This materials is somewhat magnetic as a result of work hardening of the components during the manufacturing processes.
Variety 316 Stainless
This materials possess higher corrosion and temperature resistance compared with Type 304SS. It is usually used in the food processing market because of its resistance to worry corrosion cracking within the presence of chlorides this kind of as are observed in liquid smoke. The magnetic permeability of this material is incredibly lower and is typically considered nonmagnetic even so it is actually not deemed to get prspark oof.
600 Series Stainless
Pins, bushings and rollers are made from 17-4PH stainless steels which can be hardened for improved resistance to wear elongation. The corrosion resistance of this chain is much like
Kind 304SS. The operating temperature array of this material on the other hand is not as fantastic as Sort 304SS.
Mega Chain:
A higher power 304 stainless steel chain. Available in two versions which use diff erent mechanical confi gurations to obtain added power. Both versions off er greater functioning loads as a consequence of a better pin/bushing bearing region along with a distinctive labyrinth kind seal that helps reduce the penetration of abrasive foreign materials towards the inner wearing components.