Layering of initially mixed granular dissimilar material components deposited by surface flow is realized by varying the relative angle of the flowing layer periodically with respect to the bulk of the pile formed. Layer thickness and extent can be controlled by varying the timing and extent of the surface variations. Variation in surface flow rates may be realized by varying the feed rate from an inlet to a collection base at a fixed feed location, varying the feed location relative to the collection base, tilting the collection base that is supporting the material, and reducing the pile repose angle using vibration or fluid flow through the base.

A particulate material supplying apparatus includes a hopper that stores a particulate material, a discharge gutter that dispenses the particulate material, a feeder that transports the particulate material to a weighing scale, the weighing scale that weighs the particulate material, a supply shutter that feeds the particulate material to a machine in the next process step at a predetermined timing, and a controller that controls the operations of these devices. The discharge gutter includes an inclined gutter portion having an opening in an upper surface thereof and a substantially U-shaped cross section. The controller controls the discharge gutter so that the particulate material in the hopper is dispensed to the feeder by causing the discharge gutter to perform a swinging motion in which a forward rotation and a backward rotation each to a predetermined angle are repeated while the opening in the inclined gutter portion faces upward.

A particulate material supplying apparatus includes a hopper that stores a particulate material, a discharge gutter that dispenses the particulate material, a feeder that transports the particulate material to a weighing scale, the weighing scale that weighs the particulate material, a supply shutter that feeds the particulate material to a machine in the next process step at a predetermined timing, and a controller that controls the operations of these devices. The discharge gutter includes an inclined gutter portion having an opening in an upper surface thereof and a substantially U-shaped cross section. The controller controls the discharge gutter so that the particulate material in the hopper is dispensed to the feeder by causing the discharge gutter to perform a swinging motion in which a forward rotation and a backward rotation each to a predetermined angle are repeated while the opening in the inclined gutter portion faces upward.

Layering of initially mixed granular dissimilar material components deposited by surface flow is realized by varying the relative angle of the flowing layer periodically with respect to the bulk of the pile formed. Layer thickness and extent can be controlled by varying the timing and extent of the surface variations. Variation in surface flow rates may be realized by varying the feed rate from an inlet to a collection base at a fixed feed location, varying the feed location relative to the collection base, tilting the collection base that is supporting the material, and reducing the pile repose angle using vibration or fluid flow through the base.

Layering of initially mixed granular dissimilar material components deposited by surface flow is realized by varying the relative angle of the flowing layer periodically with respect to the bulk of the pile formed. Layer thickness and extent can be controlled by varying the timing and extent of the surface variations. Variation in surface flow rates may be realized by varying the feed rate from an inlet to a collection base at a fixed feed location, varying the feed location relative to the collection base, tilting the collection base that is supporting the material, and reducing the pile repose angle using vibration or fluid flow through the base.