Failing to consider material properties can create flow problems that include bridging, rat-holing, erratic flow, and lack of flow. These factors, in conjunction with feeder stroke, stroke angle, and feeder vibrating frequency, affect how well material flows from the hopper to the feeder and through the feeder. Material properties - Size distribution, bulk density, shear properties and cohesive strength are the main factors that dictate the configuration of Feeder Transition design. While feeder design will be covered in a future article, in order to choose the hopper design best suited to your application, consider the following material-related factors. In order to avoid that, both feeder design and hopper design must accommodate material properties. Suboptimal design of either piece of equipment or of both of them can adversely affect processing. To accomplish this, both the hopper and the feeder need to work together. Peat, rock, flour-no matter which material you process, your hoppers must move it to feeders at an optimal flow rate without damaging it.
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