Class / Patent application number | Description | Number of patent applications / Date published |
156324400 | By tackifying a single lamina of intermediate laminate | 10 |
20100089530 | METHODS OF FORMING FLUID BARRIERS OVER POWDER METAL PARTS AND INCREASING WEAR RESISTANCE THEREOF - A method of forming a fluid barrier over a powder metal part. The method includes providing a molded powder metal part and applying a fluid impenetrable material to a designated portion of the molded powder metal part to form a molded powder metal complex. Thereafter, the method includes sintering the molded powder metal complex to where the fluid impenetrable material and the designated portion of the molded powder metal part at least partially integrate. Further, the method includes cooling the molded powder metal complex such that the fluid impenetrable material forms a fluid barrier over the designated portion of the molded powder metal part. The method may further include anodizing the fluid impenetrable material at least partially integrated with the designated portion of the molded powder metal part and forming the fluid barrier over the designated portion so as to increase wear resistance thereof. | 04-15-2010 |
20110005677 | Optical waveguide film, optical substrate, and methods for manufacturing the same - An optical waveguide film includes a clad layer having an adhesive function; and a core layer covered by the clad layer. | 01-13-2011 |
20110308727 | Partially Crosslinked Adhesive-Supported Porous Film for Battery Separator and its Use - A partially crosslinked adhesive-supported porous film for battery separator, which in producing a battery, can effectively produce a battery as an electrode/separator laminate in which an electrode and a separator are temporarily bonded to each other without causing mutual slip movement between the electrode and the separator and which after producing a battery, functions itself as a separator having a small heat shrinkage factor even at high temperatures, and a process of producing a battery using such a partially crosslinked adhesive-supported porous film. The partially crosslinked adhesive-supported porous film for battery separator, includes a porous film substrate having supported thereon a partially crosslinked adhesive that is partially crosslinked by preparing a reactive polymer having a functional group in the molecule and capable of being crosslinked upon reaction with a polyfunctional compound having reactivity with the functional group and then reacting the reactive polymer with a polyfunctional compound. | 12-22-2011 |
20120031557 | BONDING UNIT CONTROL UNIT AND MULTI-LAYER BONDING METHOD - A multi-layer bonding method of the present invention includes: forming a first bonded substrate by bonding a first substrate and an intermediate substrate in a bonding chamber; conveying a second substrate inside said bonding chamber when said first bonded substrate is arranged inside said bonding chamber; and forming a second bonded substrate by bonding said first bonded substrate and said second substrate in said bonding chamber. According to such a multi-layer bonding method, the upper-side substrate can be bonded with an intermediate substrate and then a first bonded substrate is bonded with a lower-side substrate without taking out the first bonded substrate from the bonding chamber. For this reason, a second bonded substrate can be produced at high speed and at a low cost. | 02-09-2012 |
20120090780 | ARTICLES AND METHODS OF MASKING OR PROTECTING A SUBSTRATE - A protection sheet and method of protecting a substrate is disclosed. In an embodiment, the protection sheet comprises an adhesive coated nonwoven material. In an embodiment a surface of the protection sheet captures and retains paint overspray, dust, dirt and other contaminants so as to provide a cleaner paint job. In an embodiment the protection sheet may be laminated to a second nonwoven or woven material to allow clean removal after extended use. The protection sheet may be used to protect horizontal or vertical substrates, and is particularly suited to protect the surfaces of a paint booth used in automotive spray-painting operations. | 04-19-2012 |
20130248108 | Method of Manufacturing An Environment-Friendly Tile - A new type environment-friendly tile and method of manufacturing the same, firstly, provide a multi bottom-fiber layer containing a environment-friendly water-borne resin; next, place a top wear-resistant layer made of thermoplastic polyurethane (TPU) on a top surface of said multi bottom-fiber layer, and perform hot pressing and lamination on them, so that said multi bottom-fiber layer is laminated and connected to said top wear-resistant layer utilizing said environment-friendly water-borne resin. The new type environment-friendly tile thus produced is not only light weight, and highly wear resistant, but its manufacturing method is also creative and innovative, and since it is made of environment-friendly material such as fiber and thermoplastic polyurethane (TPU), hereby realizing human health and environment protection requirements. | 09-26-2013 |
20140190631 | Fluid Activatable Adhesive for Glue-Free, Liner-Free, Labels for Glass and Plastic Substrates and Methods of Use Thereof - Methods for applying a liner-free, or liner-less label, to a substrate, particularly glass or plastic (e.g., PET) substrates are described herein. The method includes applying an adhesive composition, such as a polymeric coating, to a label face sheet, activating the adhesive composition with an activating fluid, and contacting the label to the substrate. The activating fluid is preferably a mixture of water and one or more organic solvents, such as low molecular weight alcohols. In some embodiments, the labels exhibit a percent fiber tear greater than about 50, 55, 60, 65, 70, 75, 80, 85, 90, or 95% after one, two, three, four, or five minutes. In particular embodiments, the labels exhibits a percent fiber tear greater than 60, 65, 70, 75, 80, 85, 90, or 95% after two minutes. | 07-10-2014 |
20150314583 | FABRIC HANDLING APPARATUS - A fabric handling apparatus includes a layup table, a mold disposed adjacent to the layup table, and a fabric handling array suspended above the layup table and the mold. The fabric handling array is adapted to transfer at least one fabric shape from the layup table to the mold. The fabric handling array includes a plurality of attractors in an attractor array. An orientation of the fabric handling array is alterable with respect to at least one of the layup table and the mold so that the at least one fabric shape is positionable on the mold in a predetermined orientation. | 11-05-2015 |
20150367977 | Fluid Activatable Adhesive for Glue-Free, Liner-Free, Labels for Glass and Plastic Substrates and Methods of Use Thereof - Methods for applying a liner-free, or liner-less label, to a substrate, particularly glass or plastic (e.g., polyethylene terephthalate) substrates, are described herein. The method includes applying an adhesive composition, such as a polymeric coating, to a label face sheet, activating the adhesive composition with an activating fluid, and contacting the label to the substrate. The activating fluid is preferably a mixture of water and one or more organic solvents, such as low molecular weight alcohols. | 12-24-2015 |
20160129719 | LAMINATING DEVICE AND USE OF THIS LAMINATING DEVICE - Laminating device for affixing a film ( | 05-12-2016 |