Patent application number | Description | Published |
20080254249 | Work Subject Material, Surface Protection Sheet and Method of Working - A work subject material comprising a metal plate for use in punching and/or bending and, attached thereto, a surface protection sheet, characterized in that the surface protection sheet comprises a support base material and an adhesive layer superimposed on one surface of the support base material and that the surface protection sheet exhibits a coefficient (I) not more than 21.0, a coefficient (II) not less than 4.0 and a coefficient (III) not more than 1.5, which are calculated by the following formulae: (I) thickness of support base material (mm)×elongation at break of surface protection sheet (%); (II)=thickness of support base material (mm)×strength at break of surface protection sheet (N/20 mm); and (III)=coefficient (I)/coefficient (II). | 10-16-2008 |
20090123740 | Surface Protection Sheet for Laser Material Processing - The object of the present invention is provision of a surface protection sheet for laser processing to be applied to the surface on the opposite side of the laser beam irradiation face, which can protect the surface of an application object, and does not allow easy development of a dross during laser cutting processing. According to the present invention, a surface protection sheet | 05-14-2009 |
20090149602 | Release resin composition, molded compact thereof, and laminate product - A release resin composition that is excellent in thermal stability, for example, during extrusion molding and does not cause problems such as smoking and foaming during preparation of a compound product or extrusion molding and further does not contaminate metal rollers. The release resin composition can be formed into a release layer that does not cause migration of impurities to an adhesive layer being in direct contact with the release layer and therefore does not decrease the adhesive properties of the adhesive layer. The release resin composition includes a release agent (A) of which main component is a polymer compound having a weight average molecular weight of 10000 to 1000000 and containing an aliphatic group having 8 to 30 carbon atoms and includes a thermoplastic polymer (B) containing an olefin monomer and/or a polar monomer as a constitutional unit, wherein the amount of the release agent (A) is 0.1 to 20 parts by weight to 100 parts by weight of the thermoplastic polymer (B). The release agent (A) shows a 2% weight loss temperature in the range of 260° C. or higher but lower than 275° C. and a 5% weight loss temperature in the range of 275° C. or higher but lower than 330° C. in thermogravimetric analysis. | 06-11-2009 |
20100061082 | BACKLIGHT DEVICE AND DISPLAY APPARATUS - A backlight device ( | 03-11-2010 |
20100119233 | INFRARED COMMUNICATIONS RECEIVER - An objective of one embodiment of the present invention is to perform infrared communications without error by reducing abrupt noise included in a data signal when a light source of a display device is driven by PWM drive. When a control portion is provided with a drive setting signal for determining whether to drive lamps of a liquid crystal television by pulse width modulation drive or by continuous drive, the control portion sets a threshold in a register for a frequency filter portion based on the provided drive setting signal. Furthermore, upon reception of infrared light from the lamps, the threshold being set is reviewed based on an occurrence frequency for abrupt noise provided by a waveform analysis portion. Thereafter, abrupt noise included in a data signal transmitted from a cell phone is reduced by the frequency filter portion, and then the data signal is transmitted to the liquid crystal television. | 05-13-2010 |
20100119242 | INFRARED COMMUNICATIONS RECEIVER - An objective of one embodiment of the present invention is to reduce abrupt noise derived from infrared light emitted by a light source from a data signal of infrared light received by an infrared communications receiver for use with a display device including a light source without reducing the strength of the data signal. A multiplication factor for the amplitude of abrupt noise outputted by a lamp light-receiving element disposed in the vicinity of lamps of a liquid crystal television is adjusted in order for the amplitude of abrupt noise derived from the lamps and outputted by the lamp light-receiving element to be equalized with the amplitude of abrupt noise derived from the lamps and included in a data signal outputted by a data light-receiving element. Then, the abrupt noise subjected to multiplication factor adjustment is subtracted from the data signal including the abrupt noise, so that only the data signal remains and is transmitted to the liquid crystal television. | 05-13-2010 |
20100134524 | DISPLAY DEVICE - In one embodiment of the present invention, a display device is disclosed that can realize a wide color reproduction region and high color purity while maintaining a configuration of a display element having a high resolution and a high numerical aperture. The display device includes: an illumination device including a first light source that emits light of a first color and a second light source that emits light of a complementary color with respect to the first color; a gate driver that successively selects each of the scanning lines at a cycle of 0.5 frame; a data driver that writes a data signal into pixels of the first color and into at least one of pixels of a second color and a third color at a first half of one frame time period and writes a data signal into the pixels of the second color and the third color at a latter half thereof; and a switch circuit that switches on the first light source and switches off the second light source at the first half of one frame time period and switches on the second light source and switches off the first light source at the latter half of the time period. | 06-03-2010 |
20100143633 | SURFACE PROTECTION SHEET - A surface protection sheet including a base layer and a pressure-sensitive adhesive layer which have been formed by coextrusion. The surface protection sheet has satisfactory suitability for unwinding from a roll, etc., and the pressure-sensitive adhesive layer has a smooth surface and satisfactory adhesion to rough surfaces, is free from release ingredient transfer thereto, and hence poses no problem concerning contamination. The surface protection sheet comprises: a base layer comprising a thermoplastic resin; a pressure-sensitive adhesive layer formed on one side of the base layer; and a back treatment layer formed on the other side and comprising a polyethylene resin. The surface protection sheet is characterized in that the base layer, pressure-sensitive adhesive layer, and back treatment layer have been integrally formed by coextrusion molding and the pressure-sensitive adhesive layer contains a noncrystalline polyolefin elastomer in an amount of 50 wt. % or larger. | 06-10-2010 |
20110011841 | SURFACE PROTECTION SHEET FOR LASER MATERIAL PROCESSING - The object of the present invention is provision of a surface protection sheet for laser processing to be applied to the surface on the opposite side of the laser beam irradiation face, which can protect the surface of an application object, and does not allow easy development of a dross during laser cutting processing. According to the present invention, a surface protection sheet | 01-20-2011 |
20110129642 | SURFACE PROTECTIVE SHEET - Provided is a novel surface protective sheet including a pressure-sensitive adhesive layer on a supporting base material, in which the pressure-sensitive adhesive layer has a high anchoring force for the supporting base material, and no adhesive residue occurs upon peeling of the surface protective sheet after its attachment to an adherend. The surface protective sheet of the present invention is a surface protective sheet including: a supporting base material; a surface layer (I) as one outermost layer of the supporting base material; and a pressure-sensitive adhesive layer on the surface layer (I), in which: the pressure-sensitive adhesive layer contains a thermoplastic elastomer; and the surface layer (I) contains a random polypropylene at a content of more than 50 wt %. | 06-02-2011 |
20110129643 | SURFACE PROTECTIVE SHEET - Provided is a novel surface protective sheet including a pressure-sensitive adhesive layer on a supporting base material, in which the pressure-sensitive adhesive layer has a high anchoring force for the supporting base material, and no adhesive residue occurs upon peeling of the surface protective sheet after its attachment to an adherend. The surface protective sheet of the present invention is a surface protective sheet including: a supporting base material; a surface layer (I) as one outermost layer of the supporting base material; and a pressure-sensitive adhesive layer on the surface layer (I), in which: the pressure-sensitive adhesive layer contains a thermoplastic elastomer; and the surface layer (I) contains a linear, low-density polyethylene at the content of more than 50 wt %. | 06-02-2011 |
20110236653 | BASE MATERIAL FOR SURFACE PROTECTIVE SHEET AND SURFACE PROTECTIVE SHEET - Provided is the following base material for a surface protective sheet. The slipping property of the back surface of the sheet is moderately excellent, and scratches in the surface of an adherend laminated to contact the back surface of the sheet can be suppressed. Also provided is a surface protective sheet containing such base material for a surface protective sheet. The base material for a surface protective sheet of the present invention is a base material for a surface protective sheet including a base material layer (A), in which: at least one surface of the base material for a surface protective sheet is the surface of the base material layer (A); the base material layer (A) contains a polyolefin-based resin as a main component; the base material layer (A) contains polymer fine particles having an average particle diameter of 3 to 20 μm at a content of 0.1 to 20 wt % with respect to 100 parts by weight of the polyolefin-based resin; the surface of the base material layer (A) has a surface roughness Ra of 0.15 to 0.60 μm; and the surface of the base material layer (A) has a coefficient of dynamic friction (I) with respect to an aluminum plate of 0.35 to 1.00. | 09-29-2011 |