Jetted material printer with pressure-assisted fluid extraction

What is claimed is: 1. A three-dimensional (3D) printer, comprising: a receiver device including a substrate; an inkjet print head configured to deposit an ink including a suspension of a particulate material in a liquid vehicle onto the substrate to form a printed layer; a removal system configured to use a pressure differential to remove a portion of the liquid vehicle from the printed layer to form a dried layer; and a transfer device configured to transfer the dried layer to a build station; wherein the removal system comprises a vacuum chamber and a liquid-permeable support, both the vacuum chamber and the liquid-permeable support being on an opposite side of the substrate from the inkjet print head; and wherein the removal system includes a pressure plate and is configured to apply a pressure to a surface of the printed layer opposite the substrate. 2. The 3D printer of claim 1 , wherein: the substrate is permeable; and the removal system is configured to evacuate a space on a side of the substrate opposite to the printed layer. 3. The 3D printer of claim 2 , wherein the substrate includes a perforated metal. 4. The 3D printer of claim 2 , wherein the substrate includes a fibrous material. 5. The 3D printer of claim 1 , wherein the receiver device is configured to transport the printed layer away from the inkjet print head before removal of the liquid vehicle from the printed layer. 6. The 3D printer of claim 1 , wherein the removal system is configured to remove the liquid vehicle during transport of the printed layer to the build station. 7. The 3D printer of claim 1 , wherein the transfer device is configured to transfer the dried layer to a stack of printed layers in the build station. 8. The 3D printer of claim 1 , wherein: the ink includes a binder liquid; and the printer further comprises a curing system configured to cure the binder liquid to solidify it. 9. The 3D printer of claim 1 , further comprising a conditioning device configured to condition the printed layer to increase a density of the particulate material in the dried layer. 10. The 3D printer of claim 9 , wherein the conditioning device is configured to mechanically compress the particulate material in the dried layer. 11. The 3D printer of claim 9 , wherein the conditioning device is further configured to apply a surface conditioning material to the dried printed layer. 12. The 3D printer of claim 1 , wherein the build station includes an X-Y controller. 13. The 3D printer of claim 12 , wherein the build station further includes a Z-axis controller. 14. The 3D printer of claim 1 , further comprising a printing module configured to form a second printed layer on the substrate using a method other than inkjet printing. 15. An inkjet printer, comprising: a receiver device including a substrate; an inkjet print head configured to deposit an ink including a suspension of a particulate material in a liquid vehicle onto the substrate to form a printed layer; and a removal system configured to use a pressure differential to remove a portion of the liquid vehicle from the printed layer; wherein the removal system comprises a vacuum chamber and a liquid-permeable support, both the vacuum chamber and the liquid-permeable support being on an opposite side of the substrate from the inkjet print head; and wherein the removal system includes a pressure plate and is configured to apply a pressure to a surface of the printed layer opposite the substrate.