Multi-directional binder jetting additive manufacturing

1 .- 20 . (canceled) 21 . An additive manufacturing system comprising: a print box defining a volume; a print carriage movable over the volume, the print carriage defining at least one ejection orifice directed toward the volume as the print carriage moves over the volume; a spreader movable over the volume in advance of the print carriage; and a hopper movable over the volume in advance of the spreader, the hopper defining a dispensing region, the hopper including a plurality of dispensing rollers along the dispensing region, and the plurality of dispensing rollers rotatable relative to one another to move a powder through the dispensing region and toward the volume in advance of the spreader as the spreader moves toward a position over the volume to form a layer of the powder, onto which a binder is deliverable from the at least one ejection orifice of the print carriage trailing the spreader over the volume. 22 . The system of claim 21 , wherein dispensing rollers of the plurality of dispensing rollers are spaced apart from one another to define a gap, and the plurality of dispensing rollers are rotatable relative to one another to move the powder through the gap and toward the volume. 23 . The system of claim 22 , wherein the dispensing region of the hopper spans a dimension of the volume substantially parallel to the gap as the hopper moves over the volume. 24 . The system of claim 23 , wherein the plurality of dispensing rollers span the dimension of the volume as the hopper moves over the volume. 25 . The system of claim 21 , wherein each dispensing roller of the plurality of dispensing rollers has a substantially similar diameter. 26 . The system of claim 21 , further comprising at least one motor mechanically coupled to one or more dispensing rollers of the plurality of dispensing rollers, the at least one motor actuatable to rotate the plurality of dispensing rollers relative to one another. 27 . The system of claim 26 , wherein the at least one motor is actuatable to rotate the plurality of dispensing rollers in a counter-rotating direction relative to one another. 28 . The system of claim 26 , further comprising a controller in electrical communication with the at least one motor, the controller configured to actuate the at least one motor based on movement of the hopper over the volume. 29 . The system of claim 28 , wherein the controller is configured to actuate the at least one motor in a first direction of movement of the hopper over the volume and to pause actuation of the at least one motor in a second direction of movement of the hopper over the volume, the second direction of movement different from the first direction of movement. 30 . The system of claim 28 , wherein the controller is configured to actuate the at least one motor based on speed of movement of the hopper over the volume. 31 . The system of claim 28 , wherein the controller is configured to actuate the at least one motor to rotate the plurality of dispensing rollers at substantially the same rotation speed. 32 . The system of claim 26 , wherein the hopper includes a storage region in fluid communication with the dispensing region, the powder movable from the storage region toward the dispensing region through force of gravity as the hopper moves over the volume. 33 . The system of claim 26 , wherein the hopper includes a shutter selectively movable between a first position away from the dispensing region to a second position below the dispensing region to interrupt movement of powder exiting the hopper via the dispensing region. 34 . The system of claim 33 , wherein the shutter is selectively movable between the first position and the second position based on rotation of dispensing rollers of the plurality of dispensing rollers. 35 . A method of additive manufacturing of an object, the method comprising: moving a hopper over a volume defined by a print box; as the hopper moves over the volume, rotating a plurality of dispensing rollers disposed along a dispensing region defined by the hopper, the rotation of the plurality of dispensing rollers moving a powder toward the volume from the dispensing region; spreading the powder along the volume to form a layer of the powder; and in a controlled two-dimensional pattern, ejecting a binder from at least one ejection orifice of a print carriage to the layer of the powder to form a portion of the object. 36 . The method of claim 35 , wherein rotation of the plurality of dispensing rollers moves the powder toward the volume through a gap defined between the plurality of dispensing rollers. 37 . The method of claim 36 , wherein the gap and the dispensing region span a dimension of the volume substantially perpendicular to a direction of movement of the hopper over the volume. 38 . The method of claim 35 , wherein rotating the plurality of dispensing rollers includes counter-rotating dispensing rollers of the plurality of dispensing rollers. 39 . The method of claim 35 , wherein rotating the plurality of dispensing rollers includes controlling a rotation speed of at least one dispensing roller of the plurality of dispensing rollers based on a speed of movement of the hopper over the volume. 40 . The method of claim 35 , wherein rotating the plurality of dispensing rollers includes controlling a rotation speed of at least one dispensing roller of the plurality of dispensing rollers based on position of the hopper over the volume. 41 .- 66 . (canceled)