The present invention relates generally to a pillow or cushion having embossing and/or debossing elements, apparatus, system, and a method thereof. More particularly, the invention encompasses an apparatus and a method to create fabric cushion or pillow that can have embossing or debossing or a combination of embossing and debossing on them. The invention further comprises of embossed and/or debossed cushion or pillow, with or without cushion filler or insert. These inventive cushion or pillow can be used for both indoor and outdoor purposes. The cushion or pillow sizes can be standard sizes, but they can also be custom sized for any measurement. Embossing and/or debossing are the processes of creating either raised or recessed relief, image, or design in emboss-able/deboss-able materials. For example, an embossed pattern would be raised against a background, while a debossed pattern would be sunken into the surface of the material.

A core-shell microneedle system and a method of manufacturing the microneedle system provides a pulsatile drug delivery system which is programmed to release drugs/vaccines at predictable times using biodegradable polymers and with controllable dosages. This microneedle system can be fully embedded into the skin and then release drugs/vaccines as sharp bursts in a timely manner, similar to multiple bolus injections.

Systems and methods for shaping a film. Formable material in an imprint field on the substrate may be contacted with a shaping surface of a template. Outer boundaries of the imprint field correspond to outer boundaries of the shaping surface. Shaping the film includes forming a cured layer within the imprint field while the shaping surface is in contact with the formable material. Shaping the film may include separating the shaping surface from the cured layer. Shaping the film may include moving the template away from the imprint field to a first offset location wherein the outer boundaries of the shaping surface are offset relative to the outer boundaries of the imprint field. Shaping the film may include curing a second portion of the formable material while the template is at the first offset location so as to form the shaped film.

An apparatus for manufacturing a nano-imprint lithography stamp from a master template stamp, including a stamp chuck configured to selectively secure a stamp backing material thereto, a master chuck configured to support a master template stamp, the master template stamp including a master pattern thereon, the master chuck configured to support the master template stamp in facing relationship to the stamp backing material when selectively secured to the stamp chuck, wherein the master template stamp includes an electromagnetic energy curable material on and in the master pattern, and the stamp chuck is configured and arranged to position a portion of the backing material thereon spaced therefrom and in contact with the electromagnetic energy curable material, and the stamp chuck is further configured to position the portion of the backing material in contact with the energy curable material, after it is cured, in contact with the stamp chuck.

A machining apparatus includes an apparatus body and a setting jig. The setting jig has a frame body including openings to expose molding regions, which are to be molded by the apparatus body, of the sheet material, and a restraining portion to restrain a periphery of the molding regions. The apparatus body includes a support member that supports the setting jig at a position where the molding regions are disposed between an upper die and a lower die, and a first urging member to urge the support member toward the upper die so as to separate the molded body from the lower die, with the upper die disengaged from the lower die.

Methods, systems, and apparatus for identifying dimensional attributes of a first active area of a template; based at least in part on the dimensional attributes of the first active area, determining a desired magnification correction of a second active area of a substrate; determining an out-of-plane distortion of the template, the substrate, or both; applying a back pressure to the template, the substrate, or both, to compensate for the out-of-plane distortion of the template, the substrate, or both; after compensating for the out-of-plane distortion of the template, the substrate, or both: i) contacting an imprint resist positioned on the substrate with the template such that pattern features in the first active area are filled by the imprint resist, and ii) applying an additional back pressure to the template, the substrate, or both, wherein the additional back pressure is selected such that the second active area exhibits the desired magnification correction.

A food mold (1), comprising a food mold body (2) made of a mold body material, having one or more cells (3) with flexible wall, said one or more cells (3) being open on a common access face (4) itself having a peripheral rim (5) extending radially outward from an inner edge (5d) marking the boundary with the cell or cells (3) and to a free outer edge (5c), the peripheral rim (5) being provided with a peripheral stiffening element (10) in the form of a continuous annular reinforcement (100) with, if necessary, one or more intermediate stiffening elements (101, 102); the peripheral stiffening element (10) is entirely embedded in the mold body material; around the peripheral stiffening element (10), the mold body material has no through passages free or blocked between the peripheral stiffening element (10) and the outer surface of the material.

An imprint method for forming a pattern of an imprint material on a substrate-side pattern region of a substrate by using a mold. The method includes deforming a partial region of the substrate, the partial region corresponding to the substrate-side pattern region, by irradiating the substrate with light that has passed through the mold and has a first wavelength different from light having a second wavelength that is used for curing the imprint material, and curing the imprint material by irradiating the light having the second wavelength in a state in which the substrate-side pattern region is deformed and the mold is contacted with the imprint material. The step of deforming includes forming an uneven temperature distribution on the substrate-side pattern region by irradiation of the light having the first wavelength with an uneven illumination distribution.

A serving tray comprised of at least one synthetic material and an insert which provides a non-slip top surface of the serving tray. The textured relief is preferably made of thermoplastic polyurethane (TPU) which allows a glass or other item to be placed on the serving tray without the item sliding or slipping while the tray is in motion. The tray may be fabricated through a compression or an injection molding technique. As the tray is being fabricated, the TPU is mechanically bonded with the top surface of the tray while a textured relief is simultaneously defined into the top surface. The textured relief includes a plurality of protrusions and a corresponding plurality of indentations which provide adequate frictional force to the item being placed on the tray so as to substantially prevent its lateral movement.

A serving tray comprised of at least one synthetic material and an insert which provides a non-slip top surface of the serving tray. The textured relief is preferably made of thermoplastic polyurethane (TPU) which allows a glass or other item to be placed on the serving tray without the item sliding or slipping while the tray is in motion. As the tray is being fabricated, the TPU is mechanically bonded with the top surface of the tray while a textured relief is simultaneously defined into the top surface. The textured relief provides adequate frictional force to an item being placed on the tray so as to substantially prevent its lateral movement. The tray also includes an inner support structure disposed on its inner surface. The inner support structure provides an upward facing edge which allows a plurality of trays to be easily and efficiently stacked or nested on one another.