Craftwork tools are described. The craftworks tools may include a stamp and a jig with matching alignment patterns. Methods of using same are also described. The method may include placing the jig on a stamp platform, aligning the stamp with the jig, placing cardstock or another substrate on the jig, inking the stamp, and closing the lid of the stamp platform to mark the cardstock with the stamp. The cardstock and the jig may then be rotated clockwise or counterclockwise on the stamp platform without rotating the stamp on the lid, the stamp may be re-inked and then the lid may be closed again to mark the cardstock with the stamp. Methods of using embossing tools are also described.

Craftwork tools are described. The craftworks tools may include a stamp and a jig with matching alignment patterns. Methods of using same are also described. The method may include placing the jig on a stamp platform, aligning the stamp with the jig, placing cardstock or another substrate on the jig, inking the stamp, and closing the lid of the stamp platform to mark the cardstock with the stamp. The cardstock and the jig may then be rotated clockwise or counterclockwise on the stamp platform without rotating the stamp on the lid, the stamp may be re-inked and then the lid may be closed again to mark the cardstock with the stamp. Methods of using embossing tools are also described.

The present invention relates to architected stamps having beneficial printing properties. In particular, negative Poisson ratio structures and/or porous reservoirs can be employed to control fluid dynamics and to provide metered ink transfer.

The present invention relates to architected stamps having beneficial printing properties. In particular, negative Poisson ratio structures and/or porous reservoirs can be employed to control fluid dynamics and to provide metered ink transfer.

Craftwork tools are described. The craftworks tools may include a stamp and a jig with matching alignment patterns. Methods of using same are also described. The method may include placing the jig on a stamp platform, aligning the stamp with the jig, placing cardstock or another substrate on the jig, inking the stamp, and closing the lid of the stamp platform to mark the cardstock with the stamp. The cardstock and the jig may then be rotated clockwise or counterclockwise on the stamp platform without rotating the stamp on the lid, the stamp may be re-inked and then the lid may be closed again to mark the cardstock with the stamp. Methods of using embossing tools are also described.

Craftwork tools are described. The craftworks tools may include a stamp and a jig with matching alignment patterns. Methods of using same are also described. The method may include placing the jig on a stamp platform, aligning the stamp with the jig, placing cardstock or another substrate on the jig, inking the stamp, and closing the lid of the stamp platform to mark the cardstock with the stamp. The cardstock and the jig may then be rotated clockwise or counterclockwise on the stamp platform without rotating the stamp on the lid, the stamp may be re-inked and then the lid may be closed again to mark the cardstock with the stamp. Methods of using embossing tools are also described.

The present invention relates to architected stamps having beneficial printing properties. In particular, negative Poisson ratio structures and/or porous reservoirs can be employed to control fluid dynamics and to provide metered ink transfer.

The present invention relates to architected stamps having beneficial printing properties. In particular, negative Poisson ratio structures and/or porous reservoirs can be employed to control fluid dynamics and to provide metered ink transfer.

A method for microassembly of heterogeneous materials comprises contacting a stamp with an ink disposed on a donor substrate to form an inked stamp, where the ink is reversibly bound to the stamp. The inked stamp is stamped onto a receiving substrate or onto an object on the receiving substrate, and the stamp is removed, thereby transferring the ink to the receiving substrate. The ink and the receiving substrate or the ink and the object are thermally joined, thereby forming a microassembly of heterogeneous materials. The ink may comprise a first material and the receiving substrate or the object may comprise a second material different from the first material.

A method for microassembly of heterogeneous materials comprises contacting a stamp with an ink disposed on a donor substrate to form an inked stamp, where the ink is reversibly bound to the stamp. The inked stamp is stamped onto a receiving substrate or onto an object on the receiving substrate, and the stamp is removed, thereby transferring the ink to the receiving substrate. The ink and the receiving substrate or the ink and the object are thermally joined, thereby forming a microassembly of heterogeneous materials. The ink may comprise a first material and the receiving substrate or the object may comprise a second material different from the first material.