An imprint apparatus executes an imprint process for shaping an imprint material by using a mold. The apparatus includes a controller which obtains first height distribution information indicating a height distribution of a surface of a first substrate, and a measuring device which obtains second height distribution information indicating a height distribution of a surface of a second substrate. The controller controls the imprint process based on corrected height distribution information which is obtained by removing a first component that is an approximation function, of an order not more than a first predetermined order, for approximating the first height distribution information, from the first height distribution information, and a second component which is an approximation function, of an order not more than a second predetermined order, for approximating the second height distribution information.

A periodontal tissue regeneration inducer and an apparatus and a method for manufacturing the same are provided. The periodontal tissue regeneration inducer includes a sheet body formed of a flexible material, and a pattern layer having a pattern formed therein to facilitate bone formation or regeneration on a surface of the sheet body. Therefore, the periodontal tissue regeneration inducer and the apparatus and method for manufacturing the same have an advantage in that the bone formation or regeneration may be facilitated during implant surgery because the membrane sheet is composed of a polycaprolactone (PCL) material and a nanopattern is formed on a surface of the pattern layer.

An imprint apparatus according to the present invention includes a controller configured to perform a contacting step of moving at least one of a mold holding unit and a substrate holding unit by at least one of a mold driving unit and a substrate driving unit such that a mold and an imprint material on a substrate surface are brought into contact with each other, an obtaining step of obtaining a driving force in a first direction parallel to the substrate surface for the substrate holding unit by the substrate driving unit after performing the contacting step, and a tilt correcting step of rotating the mold holding unit about a second direction perpendicular to the first direction in the substrate surface by the mold driving unit based on a magnitude of the driving force obtained in the obtaining step.

A fixture for heat pressing process is applied to a hot pressing machine for hot pressing two elastic plastic pieces so as to manufacture an airbag. The two elastic plastic pieces are disposed between the fixture and the hot pressing machine. The fixture includes a first frame, a second frame and a flexible heat blocking layer. The first frame includes two first brackets, which are separated from each other with a first distance. The second frame includes two second brackets, which are separated from each other with a second distance, and located at two ends of the first brackets, respectively. The flexible heat blocking layer is fixed by the first frame and/or the second frame.

An imprint apparatus forms a pattern of a resin on a region to be processed of a substrate using a mold including a pattern region on which a pattern is formed and includes a correction unit configured to correct a shape of a target region that is either the pattern region on the mold or the region to be processed on the substrate, wherein the correction unit further includes: a heating unit configured to heat an object corresponding to the target region of either the mold or the substrate in a heating region having an area smaller than that of the pattern region on the mold; a scanning unit configured to scan the heating region with respect to the target region by changing the relative position of the target region and the heating region; and a control unit configured to acquire information regarding a correction deformation amount of the target region and control the heating unit and the scanning unit based on the information.

A automatic vacuum film transferring machine includes an upper mold that can be driven to moved up and down; at least one lower mold each corresponding to the upper mold and configured to support a component to be transferred; a transferring support member located below the upper mold, and configured to support one lower mold; a first sliding support member and a second sliding support member each located on and driven to slide along two opposite side of the transferring support member, the first and second sliding support member are driven to dock onto the transferring support member to transfer one lower mold.

An imprint apparatus for bringing a mold and an imprint material on a substrate into contact with each other and performing imprint processing for forming a pattern of the imprint material is provided. The apparatus comprises a supplier configured to supply the imprint material on the substrate in accordance with a supply pattern of the imprint material, and a controller configured to control the supplier, wherein the controller obtains a contact timing as a timing at which the mold and the imprint material are brought into contact with each other at each of a plurality of positions of the mold, and determines the supply pattern based on the obtained contact timing.

A method for preparing hot stamping cylindrical EPE sliver, including the following steps: Step 1, prepare a hot stamping die: an annular pattern, which is annular and will be stamped on the surface of a hollow cylindrical EPE sliver, is expanded as a planar pattern to prepare a flat stamping die. Step 2, the flat stamping die is installed on a heating device of a hot stamping machine, and a hot stamping temperature is adjusted. Step 3, the hollow cylindrical EPE sliver is set in a rotation axis of the stamping machine. Step 4, form a figuration by extruding each other when the rotating EPE sliver figuration passes through said hot stamping pattern on said stamping die. Step 5, the rotational speed of the rotation axis and the horizontal speed are set equally. Step 6, start-up a hot stamping button, therefore resulting in perfect hot stamping in 360 degree.

A method can include placing a substrate over a chucking region, wherein the substrate has a primary surface; quantifying a distortion in the substrate, the lithographic template, the imprint apparatus, or any combination thereof; and dispensing a formable material based at least in part on the distortion. The distortion can include a deviation in planarity, a magnification or orthogonality error or the like. In another aspect, an imprint apparatus can include a substrate holder including a chucking region; a template having an imprint surface that includes protrusions, wherein the protrusions define a primary surface; and a processor configured to determine an amount of a formable material to dispense in a particular area based at least in part on an distortion in the substrate, the lithographic template, the imprint apparatus, or any combination thereof.

A method for applying a layer having a relief on a substrate includes, steps of securing the substrate, applying a layer of a curable liquid on the substrate, bringing a mould having a relief being the negative of the relief to be provided on the substrate, into contact with a part of the upper surface of the liquid layer, curing the liquid layer while the mould is in contact with the liquid and separating the mould from the substrate. Initially the mould is brought into contact with the liquid in a bent position while the substrate is kept flat and subsequently the mould is brought into contact over an increasing surface area keeping the mould in a bent position until the complete liquid layer is in contact with the mould.