A process for making an ultra-conformal microprint by ultra-conformal microprint transferring includes: disposing a transfer moiety arranged in a microstructure on a transfer substrate; disposing a glassy transfer layer on the transfer moiety; forming a glassy composite; removing the glassy composite from the transfer substrate while maintaining the microstructure of the transfer moiety in the glassy transfer layer; disposing the glassy composite on a microprint substrate; ultra-conformally covering the microprint substrate with the glassy composite by heating the glassy composite so that it flows while maintaining the microstructure of the transfer moiety in the glassy transfer layer so that the microstructure is disposed on the microprint substrate; and removing the glassy transfer layer while leaving the transfer moiety disposed in the microstructure on the microprint substrate to form the ultra-conformal microprint including the transfer moiety arranged in the microstructure on the microprint substrate.

A process for making an ultra-conformal microprint by ultra-conformal microprint transferring includes: disposing a transfer moiety arranged in a microstructure on a transfer substrate; disposing a glassy transfer layer on the transfer moiety; forming a glassy composite; removing the glassy composite from the transfer substrate while maintaining the microstructure of the transfer moiety in the glassy transfer layer; disposing the glassy composite on a microprint substrate; ultra-conformally covering the microprint substrate with the glassy composite by heating the glassy composite so that it flows while maintaining the microstructure of the transfer moiety in the glassy transfer layer so that the microstructure is disposed on the microprint substrate; and removing the glassy transfer layer while leaving the transfer moiety disposed in the microstructure on the microprint substrate to form the ultra-conformal microprint including the transfer moiety arranged in the microstructure on the microprint substrate.

The present invention relates to a method of manufacturing an embossed-in-register flooring material and a flooring material manufactured using the method. More particularly, the present invention relates to a method of manufacturing an embossed-in-register flooring material including a step of manufacturing an embossed-in-register PVC transparent film and a step of laminating the embossed-in-register PVC transparent film on the upper surface of a bottom layer and a flooring material manufactured using the method. The method of the present invention may achieve process simplification by including these steps.

A process for making an ultra-conformal microprint by ultra-conformal microprint transferring includes: disposing a transfer moiety arranged in a microstructure on a transfer substrate; disposing a glassy transfer layer on the transfer moiety; forming a glassy composite; removing the glassy composite from the transfer substrate while maintaining the microstructure of the transfer moiety in the glassy transfer layer; disposing the glassy composite on a microprint substrate; ultra-conformally covering the microprint substrate with the glassy composite by heating the glassy composite so that it flows while maintaining the microstructure of the transfer moiety in the glassy transfer layer so that the microstructure is disposed on the microprint substrate; and removing the glassy transfer layer while leaving the transfer moiety disposed in the microstructure on the microprint substrate to form the ultra-conformal microprint including the transfer moiety arranged in the microstructure on the microprint substrate.

A process for making an ultra-conformal microprint by ultra-conformal microprint transferring includes: disposing a transfer moiety arranged in a microstructure on a transfer substrate; disposing a glassy transfer layer on the transfer moiety; forming a glassy composite; removing the glassy composite from the transfer substrate while maintaining the microstructure of the transfer moiety in the glassy transfer layer; disposing the glassy composite on a microprint substrate; ultra-conformally covering the microprint substrate with the glassy composite by heating the glassy composite so that it flows while maintaining the microstructure of the transfer moiety in the glassy transfer layer so that the microstructure is disposed on the microprint substrate; and removing the glassy transfer layer while leaving the transfer moiety disposed in the microstructure on the microprint substrate to form the ultra-conformal microprint including the transfer moiety arranged in the microstructure on the microprint substrate.

The present invention relates to a method of manufacturing an embossed-in-register flooring material and a flooring material manufactured using the method. More particularly, the present invention relates to a method of manufacturing an embossed-in-register flooring material including a step of manufacturing an embossed-in-register PVC transparent film and a step of laminating the embossed-in-register PVC transparent film on the upper surface of a bottom layer and a flooring material manufactured using the method. The method of the present invention may achieve process simplification by including these steps.

A printing device, a printing machine, and a box making machine are provided with printing cylinders on which printing plates can be mounted, ink supply rolls that are placed on the upstream or downstream sides of the printing cylinders in a sheet-conveying direction and that can be in contact with the printing cylinders, ink supply units that can supply ink to the ink supply rolls, first covers that cover the upper parts of the printing cylinders in the vertical direction and that can be opened and closed, and footholds that cover the vertically upper parts of the ink supply rolls and that can be operated by an operator.

The present invention provides a method for the production of edible objects by selective laser sintering (SLS) using particular multi-material powder compositions. The edible compositions comprise a binder component having a melting or glass transition temperature in the range 10-200 C., and a structural component which is non-melting at the temperatures below 200 C. The composition is then subjected SLS to obtain a three-dimensional edible object. The invention can be used to produce food products using SLS, such as a bakery product, a dry mix for beverage, an instant soup or a confectionery product, among others.

The present invention provides a method for the production of edible objects by selective laser sintering (SLS) using particular multi-material powder compositions. The edible compositions comprise a binder component having a melting or glass transition temperature in the range 10-200 C., and a structural component which is non-melting at the temperatures below 200 C. The composition is then subjected SLS to obtain a three-dimensional edible object. The invention can be used to produce food products using SLS, such as a bakery product, a dry mix for beverage, an instant soup or a confectionery product, among others.

A positioning element for a counter die for making graphic marks on flat sheets for packaging is shown. It includes at least a ring 0.2 to 0.8 mm thick, shaped on both sides, and made of ferromagnetic material. The ring has a hole that fits into a mold cavity of the counter die. A mold for making a counter die containing a positioning element for a counter die for making graphic marks on flat sheets for packaging is also described. The mold is provided with sockets for fixing the position of rings, wherein each socket is a cylinder facing with its apex, a surface of the mold together with a milled base to a minimum depth equal to a thickness of the rings, a number of sockets being equal to number of rings.