| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 156320000 | Heating of dry adhesive on lamina prior to assembly contact | 9 |
| 20080202682 | Heat-Activatedly Bonding 2D Element - The invention provides a substantially two-dimensional element (2D element) which bonds adhesively without bubbles under heat activation and has at least one heat-activable adhesive, one side face of said element having a groove element. The groove element comprises at least one groove adapted for the transport of a fluid. The groove is set into the side face of the 2D element in such a way that it is open towards the side face. It runs continuously from one edge section of the side face to a further edge section of the side face. By way of the groove structure formed from the at least one groove, liquid or gaseous fluids which form or collect in the bond area can be drained from the plane of the bond, thereby improving the strength of the bond. The invention further offers methods of producing and employing this 2D element. | 08-28-2008 |
| 20090050268 | Heat-sensitive adhesive material, adhered article, process and apparatus for thermally activating the heat-sensitive adhesive material - A heat-sensitive adhesive material contains a substrate and a heat-sensitive adhesive layer that contains a thermoplastic resin and a solid plasticizer, and the heat-sensitive adhesive material is so configured as to be heated and applied to an adherend, wherein the heat-sensitive adhesive material exhibits such an adhesive strength to the adherend as to increase with time from immediately after applying the heat-sensitive adhesive material to the adherend. | 02-26-2009 |
| 20090211702 | Film extrusion method - A method of applying a film, including a top layer having a softening point temperature and an adhesive tie layer, to an extruded substrate having a receiving surface to form a finished extrusion is provided including the steps of heating the adhesive tie layer of the film, heating the extruded substrate, placing the adhesive tie layer of the film in contact with the receiving surface of the extruded substrate, applying a predetermined force to the film to bond the adhesive tie layer to the extruded substrate and form the finished extrusion, and maintaining the top layer of the film at a temperature below the softening point temperature to prevent the top layer from being marred as the adhesive tie layer bonds to the extruded substrate. | 08-27-2009 |
| 20090211703 | Label manufacturing method and label manufacturing system - In order to provide a label manufacturing method and a label manufacturing system in which a needless heating pattern is not required to be stored, a user can perform setting, changing, and fine adjustment of a heating pattern freely, and an adhesive portion having a desired shape and a desired size can be formed accurately, when a label made of a heat sensitive adhesive sheet is manufactured, image data is generated as the heat sensitive adhesive sheet being one image area, and an image editing process is performed so as to divide the image area into at least two types of parts (for example, black part and white part) and to set one of the parts as a heated part R | 08-27-2009 |
| 20120073748 | Device for Coating a Workpiece - The present invention provides a device for coating a workpiece, which comprises at least a deflector means for feeding a material web, downstream of which a pressure means for applying the material web to workpiece surface is arranged, wherein preferred pressure and deflector means comprise cylinders, rollers and/or shoes, wherein the device further comprises at least an energy source, the point of action of which lies in the region of the pressure means, in particular in a region of the pressure means which contacts the material web at least in portions. The device is configured to apply the material web onto the workpiece surface in the inline and/or offline method. | 03-29-2012 |
| 20130233486 | ADHESIVE AGENT, ADHESION METHOD AND MANUFACTURING METHOD OF ADHERED MATERIAL - The purpose of the present invention is to improve adhesion failure associated with “a bubble formation phenomenon” that may occur in an adhesive layer when the thickness of an adhesive agent is increased and “Cratering” which may be caused in the adhesive layer by contaminants or the like present on a material to be adhered. | 09-12-2013 |
| 20140027056 | REACTIVE HOT MELT ADHESIVE - The present invention relates to silane reactive hot melt adhesive compositions having improved green strength, the production of such adhesives and the use of such adhesives. | 01-30-2014 |
| 20140150970 | STRUCTURAL ADHESIVE COMPOSITIONS - Disclosed herein are compositions including (a) a first component comprising (1) an epoxy-adduct that is the reaction product of reactants comprising a first epoxy compound, a polyol, and an anhydride and/or a diacid and (2) a second epoxy compound; (b) rubber particles having a core/shell structure and/or graphenic carbon particles; and (c) a second component that chemically reacts with the first component at ambient or slightly thermal conditions. Also disclosed herein are compositions including (a) an epoxy-capped flexibilizer; (b) a heat-activated latent curing agent; and optionally (c) rubber particles having a core/shell structure and/or graphenic carbon particles; (d) an epoxy/CTBN adduct; and/or (e) an epoxy/dimer acid adduct. The heat-activated latent curing agent may include at least one reaction product of reactants including an epoxy compound and an amine and/or an alkaloid. | 06-05-2014 |
| 20140150971 | System and Method for Applying an Adhesive Coated Cable to a Surface - A system and method for installing a fiber or cable on a wall or ceiling of a structure includes providing a fiber, wire or cable pre-coated with a hot melt adhesive that simply needs to be activated by the application of sufficient heat for a sufficient amount of time immediately before installation. Rolls or cartridges of wire or cable pre-coated with the hot melt adhesive are provided. The hot melt adhesive coated wire or cable is fed through a heated chamber, preferably a tip on a portable heating device such as a battery operated soldering iron, which activates the pre-coated hot melt adhesive prior to utilizing the heating tip to apply pressure to the adhesive wire directly to a wall or ceiling thereby adhering the fiber, wire or cable to the desired surface. | 06-05-2014 |
