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January 12, 2021

For Use at Low-temperature
When using conveyor chains at low-temperature such as inside a refrigerator or within a cold ambiance, the next disorders may perhaps take place.
one) Lower temperature brittleness
Generally, a materials is embrittled at low-temperature and shock resistance is lowered. This phenomenon is known as low-temperature brittleness, plus the degree of embrittlement differs from materials to materials.
The support limit of the conveyor chain is determined by its specifications.
two)Influence of freezing
At low-temperature, bending failure, roller rotation failure, repairing of chain, etc. can be brought about by the freezing of penetrated water or deposited frost in the clearance involving pins and bushings, bushings and rollers or inner plates and outer plates. These disorders result in an overload to act within the chain and drive, diminishing the daily life of the chain.
To stop freezing, usually, it’s proposed to fill the clearances using a low-temperature lubricant ideal to the support temperature to avoid water, frost, and so forth. from penetrating the respective portions of the chain. For lubrication, a silicon based mostly grease is suggested.
For Use at High-temperature
Chains power is diminished by high-temperature atmosphere, direct conveying of high-temperature loads, or radiated heat, etc. The service limit at high-temperature depends not to the temperature of the service atmosphere but the temperature and materials with the chain body.
Following situations may perhaps occur when chains are employed at high-temperature:
one) High temperature brittleness and fracture by lowered hardness of heat handled material
two) Brittleness brought about by carbide precipitation
three) Abnormal wear by scale
four) Fatigue fracture brought about by repeated thermal shock (cooling and growth)
5) Abnormal dress in resulting from an increase during the coefficient of friction
six) Creep fracture
seven) Fracture because of thermal fatigue of welded place
8) Effects triggered by thermal expansion
?Stiff back links and rotation failure because of decreased clearance ?Fatigue fracture due to lowered fitting force
9)Lubrication failure and stiff back links due to deterioration and carbonization of lubricating oil
Grease outstanding in heat resistance include those based upon silicon, graphite or molybdenum disulfide.
For use at high-temperature, high-temperature resistance bearings and stainless steel bearings are encouraged.