During the sintering process, powder particles achieve densification through atomic diffusion, and particle size distribution directly affects the diffusion path and rate.
Powder metallurgy gear products excel in these demanding conditions thanks to their unique material properties and manufacturing processes, achieving a perfect balance between efficient power transmission and precise control.
Controlling the shrinkage rate of powder metallurgy structural parts is a multidisciplinary problem involving materials, processes, molds, and simulation.
The subsequent low-temperature tempering process is used to eliminate residual stress and stabilize the dimensional accuracy of the gears.
The creep characteristics of powder metallurgy structural parts under high temperature conditions are the result of the combined effect of their microstructure and external conditions.
Through multiple technological advantages such as porous oil storage, graphite lubrication, high-density reinforcement, and precision molding, powder metallurgy gear products perfectly meet the stringent requirements of motorcycle dry clutches for wear re