Abstract: Technologies are described for printer systems. The systems may comprise a column with a first end in operative relationship with a hopper. The systems may comprise a nozzle at a second end of the column. The nozzle may be configured to deposit melted plastic. The systems may comprise a first heating element. The first heating element may be configured to supply heat sufficient to melt plastic to the column. The systems may comprise an auger within the column. The auger may be configured to transport melted plastic from a first section of the column to the nozzle. The systems may comprise a second heating element. The second heating element may be configured to supply heat to the column to increase a temperature of melted plastic. The systems may comprise a controller. The controller may control a position of the deposited melted plastic relative to a base to form an object.

Abstract: Technologies are described for printer systems. The systems may comprise a column with a first end in operative relationship with a hopper. The systems may comprise a nozzle at a second end of the column. The nozzle may be configured to deposit melted plastic. The systems may comprise a first heating element. The first heating element may be configured to supply heat sufficient to melt plastic to the column. The systems may comprise an auger within the column. The auger may be configured to transport melted plastic from a first section of the column to the nozzle. The systems may comprise a second heating element. The second heating element may be configured to supply heat to the column to increase a temperature of melted plastic. The systems may comprise a controller. The controller may control a position of the deposited melted plastic relative to a base to form an object.