Patent application number | Description | Published |
20120213918 | VERTICALLY ALIGNING A CARBON NANOTUBES ARRAY - The present invention provides a technique for vertically aligning a carbon nanotube array, which can improve vertical alignment at the bottom of the carbon nanotube array during growth of carbon nanotubes on a substrate. For this purpose, the present invention provides a method of vertically aligning a carbon nanotube array, the including: allowing carbon nanotubes to be grown on a substrate fed to a reactor and synthesized into a carbon nanotube array; and reducing the internal pressure of the reactor after (e.g., immediately after) synthesis of the carbon nanotube array to remove (e.g., instantly remove) a carbon source gas remaining in the reactor, thereby improving vertical alignment at the bottom of the carbon nanotube array. | 08-23-2012 |
20120315425 | COMPOSITE MATERIAL FOR BATTERY CASE AND METHOD OF MANUFACTURING THE SAME - Provided is a composite material for a battery case and a method of manufacturing the same, in which a heat-dissipating layer, which is filled with a heat-dissipating filler, is interposed between layers to effectively dissipate heat generated in a battery through the heat-dissipating layer. As a result, the lifespan is increased and the stability of the battery package is ensured. Moreover, according to the present invention, a neat layer which is not filled with the heat-dissipating filler is interposed between the heat-dissipating layers, and thus it is possible to prevent deterioration in mechanical properties. | 12-13-2012 |
20130030117 | METHOD OF MANUFACTURING POLYAMIDE AND CARBON NANOTUBE COMPOSITE USING HIGH SHEARING PROCESS - The present invention provides a method of manufacturing polyamide-carbon nanotube composites. The method includes mixing a polyamide composition including 0.01-1% by weight of carbon nanotubes using a shearing rate equal to or greater than 1000-4400 sec | 01-31-2013 |
20130084487 | BATTERY PACKAGE FILLED WITH PHASE CHANGE MATERIAL AND BATTERY USING THE SAME - A battery and battery package is disclosed which improves a battery's heat dissipation capability by using an aluminum material and a phase change material capable of maintaining a suitable temperature through phase change according to a temperature in order to prevent a battery from being deteriorated in terms of performance. More specifically, battery package has a top case and a bottom case as a battery cell case for housing a battery cell. The top and bottom cases are adhered to each other, and either or both the top and bottom cases includes: a top sheet plate repeatedly undulated at predetermined intervals to form a plurality of unidirectionally extended convex parts to be filled with a phase change material; a bottom sheet plate formed in a flat shape and adhered to the top sheet plate; and a phase change material filled in between the convex parts and the bottom sheet plate. | 04-04-2013 |
20130140483 | MICRO PARTICLE FOR THERMAL CONTROL MATERIAL AND DEVICE AND METHOD OF PRODUCING THE SAME USING ULTRASONIC HIGH-TEMPERATURE VIBRATION SCHEME - Disclosed is a micro particle for a thermal control material capable of being applied as a highly thermal conductive material for thermal control, and an apparatus and a method of producing the micro particle for the thermal control material by using an ultrasonic high-temperature vibration scheme. More specifically, a Boron Nitride (BN) particle having a plate shape and an excellent thermal conductivity is coated on a PCM having a shape of a micro bead, to increase the thermal conduction to the inside PCM, so that a phase change is easily generated, and which allows an easy treatment of the PCM in a liquid state at a temperature equal to or higher than a melting point of the PCM. | 06-06-2013 |
20130200296 | POLYMER NANOCOMPOSITE CONTAINING GLASS FIBER COATED WITH METAL-CARBON NANOTUBE AND GRAPHITE AND METHOD OF PREPARING THE SAME - The present disclosure relates to a polymer nanocomposite including a metal-carbon nanotube coated glass fiber and graphite, in which a metal-carbon nanotube coated glass fiber serving as an electromagnetic wave shielding material is hybridized with graphite having an excellent heat conductivity, thereby improving the electromagnetic wave shielding performance in a low frequency range. The polymer nancomposite according to the disclosure is broadly applicable to a variety of fields requiring electromagnetic wave shielding performance such as, for example, various electronic component housings for a vehicle, components of an electric vehicle, a mobile phone, and a display device, and a method of preparing the polymer nanocomposite. | 08-08-2013 |
20130200309 | NANOCOMPOSITE MATERIAL CONTAINING GLASS FIBER COATED WITH CARBON NANOTUBES AND GRAPHITE AND A METHOD OF PREPARING THE SAME - The present disclosure relates to a nanocomposite material containing carbon nanotube coated glass fiber and graphite, in which fiber-shaped conductive particles obtained by coating a glass fiber with carbon nanotube as a conductive material with a good electromagnetic wave shielding property are hybridized with graphite sheets having a nanometer thickness and having an excellent heat conductivity, thereby creating a nanocomposite material with excellent electromagnetic wave shielding and heat dissipation properties. The nanocomposite material may be applied to a wide variety of electronics fields requiring both electromagnetic wave shielding and heat dissipation property, such as automotive electronic component housings, components of an electric car, mobile phones, and display devices. | 08-08-2013 |
20130202865 | ELECTROMAGNETIC SHIELDING COMPOSITE MATERIAL AND METHOD FOR MANUFACTURING THE SAME - The disclosure provides an electromagnetic shielding composite material, and a method for manufacturing the same. The electromagnetic shielding composite material includes: a polymer sheet; and an acicular carbon nanotube layer including acicular portions of carbon nanotubes fixed on the polymer sheet. The method for manufacturing the electromagnetic shielding composite material includes: preparing a carbon nanotube dispersion solution; applying the carbon nanotube dispersion solution to the surface of a polymer sheet; and drying the polymer sheet to which the carbon nanotube dispersion solution is applied and then forming an acicular structure of carbon nanotubes on the polymer sheet. The composite material has superb electromagnetic wave shielding properties suitable for a variety of electronics applications. | 08-08-2013 |
20130202924 | RADIANT HEAT PLATE FOR BATTERY CELL MODULE AND BATTERY CELL MODULE HAVING THE SAME - Disclosed is a radiant heat plate and a battery cell module having the same. The radiant heat plate is interposed between battery cells. The radiant heat plate includes a high-thermal conductivity plate with excellent thermal conductivity and a composite sheet fixedly laminated on both surfaces of the high-thermal conductivity plate. Here, the composite sheet is formed of a thermoplastic elastomer composite filled with a high-thermal conductivity filler. | 08-08-2013 |
20130202939 | HEAT CONTROL POUCH FOR BATTERY CELL MODULE AND BATTERY CELL MODULE HAVING THE SAME - Disclosed are a heat control pouch and a battery cell module having the same. The heat control pouch is interposed between battery cells. The heat control pouch includes a high thermal conductivity case having a sealed internal space, a phase change composite filled in the internal space of the high thermal conductivity case, and an elasticity sheet attached to both upper and lower surfaces of the high thermal conductivity case. Here, the elasticity sheet is formed of a thermoplastic elastomer composite containing a high thermal conductivity filler. | 08-08-2013 |
20130221285 | HYBRID POLYMER COMPOSITES FOR ELECTROMAGNETIC WAVE SHIELDING, AND A METHOD FOR FABRICATING THE SAME - Disclosed is a hybrid polymer composite for electromagnetic wave shielding, and a method for fabricating the same. Specifically, the hybrid polymer composite may be fabricated by combining a microcapsule that is surface coated with at least one carbon nanotube and includes a phase change material (PCM), whose phase easily transitions from solid to liquid upon exposure to heat, with at least one carbon fiber and a matrix polymer. The disclosed hybrid polymer composite has enhanced electromagnetic wave shielding properties that result, in part, from the ability of the PCM to dissipate and remove heat generated by electromagnetic absorption. Additionally, the disclosed composite has excellent conductivity due to its polymer properties and the formation of a network between fillers and the polymer. | 08-29-2013 |
20130237621 | HIGH HEAT RADIATION COMPOSITE AND A METHOD OF FABRICATING THE SAME - The present disclosure provides a high heat radiation composite material including a hybrid filler comprising expanded graphite filled with expandable polymeric beads, and a fabrication method thereof. In the method, a dispersion solution is prepared by dispersing expandable polymeric beads in ethanol. Expanded graphite is immersed in the dispersion solution, and heat-treated to remove ethanol, thereby producing the hybrid filler. The hybrid filler is dispersed into the matrix polymer via an extrusion/injection process, thereby producing the composite material. | 09-12-2013 |
20130240261 | COMPOSITE MATERIAL FOR SHIELDING ELECTROMAGNETIC WAVE - The present disclosure provides a composite material for shielding an electromagnetic wave, and more particularly, a composite material for shielding an electromagnetic wave, which can effectively shield an electromagnetic wave generated in an electronic component. The composite material of the disclosure has a multi-layer structure including: an electromagnetic wave-shielding layer for shielding an electromagnetic wave; and a thermally conductive layer stacked under the electromagnetic wave-shielding layer for dissipating heat generated when the electromagnetic wave is absorbed, wherein the electromagnetic wave-shielding layer includes a material including a magnetic material and a carbon-based conductive material added to a thermoplastic resin. | 09-19-2013 |
20130244078 | RADIATING APPARATUS FOR BATTERY CELL USING INTERFACE PLATE - Disclosed is a radiating apparatus for a battery cell which uses an interface plate which can effectively radiate heat accumulated in the battery. In particular, an aluminum-elastomer structure composite material with excellent thermal conductivity is used as the interface plate. Further, the radiating apparatus includes an outer case having cooling channels, through which cooling air passes to discharge heat generated from a battery cell, and a battery cell and an interface plate which are provided within the outer case and which are alternately stacked to make surface-contact with each other. The interface plate advantageously discharges the heat accumulated in the battery cell using aluminum-elastomer structure composite material. | 09-19-2013 |
20130252040 | HEAT CONTROL PLATE FOR BATTERY CELL MODULE AND BATTERY CELL MODULE HAVING THE SAME - The present invention provides a heat control plate and a battery cell module having the same. The heat control plate is used as an interfacial component interposed between battery cells. The heat control plate includes a planar composite sheet, a plurality of heat radiating ribbons, a planar heating layer, and a conductive strap. The plurality of heat radiating ribbons penetrate the composite sheet and protrude from both right and left sides of the composite sheet at both ends thereof. The planar heating layer is attached to one or both of upper and lower surfaces of the composite sheet and generates heat upon application of a voltage. The conductive strap applies a supply voltage to the planar heating layer. The planar composite sheet can have a high thermal conductivity. The planar composite sheet can have a thermal conductivity greater than about 3 W/mK. | 09-26-2013 |
20130264511 | COMPOSITE FOR SHIELDING BROADBAND ELECTROMAGNETIC WAVES - Disclosed is a composite material for shielding broadband electromagnetic waves and a method for its production. More particularly, a composite material for shielding broadband electromagnetic waves that absorbs low frequency electromagnetic waves and reflects high frequency electromagnetic waves is disclosed. The composite material for shielding broadband electromagnetic waves may be a polymer composite prepared by mixing a matrix composition including a matrix-forming polymer impregnated with a carbonaceous conductive nano material with a filler composite including a filler-forming polymer impregnated with a magnetic material. The magnetic material impregnated in the filler-forming polymer may be distributed in the matrix composite. | 10-10-2013 |
20130266837 | HEAT RADIATION PLATE FOR BATTERY MODULE AND BATTERY MODULE HAVING THE SAME - Disclosed is a heat radiation plate for a battery module, which can effectively radiate heat accumulated in a battery module, and the battery module having the heat radiation plate. To this end, the heat radiation plate is inserted in an interlayer manner between battery cells. The heat radiation plate includes high-polymer matrix layers and a filler layer inserted in an interlayer manner between the high-polymer matrix layers, in which the filler layer is made of a conductive fiber having a three-dimensional (3D) web structure. | 10-10-2013 |
20130277439 | HOUSING FOR ELECTRONIC/ELECTRICAL COMPONENTS USING SHAPE MEMORY MATERIAL - Disclosed is a housing for electronic/electrical that includes an inner panel and an outer panel, a strip of metal plate, and a strip of shape memory material. The inner panel and the outer panel are disposed parallel to each other at regular intervals to define an internal space. The strip of metal plate extends from an inner surface of the outer panel. The strip of shape memory material extends from an inner surface of the inner panel and is attached or detached to/from the metal plate on the outer panel while changing into an original straight shape or a bent shape according to a temperature variation. Here, when the temperature increase beyond a first transition temperature, the shape memory material straightens to form a heat transfer path. At a low temperature environment, the shape memory material bends and is separated from the metal plate to interrupt the heat transfer path. | 10-24-2013 |
20130299732 | HYBRID FILLER FOR ELECTROMAGNETIC SHIELDING COMPOSITE MATERIAL AND METHOD OF MANUFACTURING THE HYBRID FILLER - Disclosed is a hybrid filler for an electromagnetic shielding composite material and a method of manufacturing the hybrid filler, by which electromagnetic shielding and absorbing capabilities are improved and heat generated by electromagnetic absorption is effectively removed. The hybrid filler for an electromagnetic shielding composite material includes an expandable graphite (EG) having a plurality of pores, and magnetic particles integrated with a carbon nanotube (CNT) on outer surfaces thereof in a mixed manner, wherein the magnetic particles are inserted into the pores of the EG. | 11-14-2013 |
20140045028 | RADIANT HEAT PLATE FOR BATTERY CELL MODULE AND BATTERY CELL MODULE HAVING THE SAME - Disclosed is a multifunctional radiant heat plate and a battery cell module having the same. The multifunctional radiant heat plate includes a heat conductive plate, a first and second composite sheet, at least one electroconductive metal layer, and electrodes. The heat conductive plate may be sandwiched between the first and second composite sheets. The at least one electroconductive metal layer is stacked on the composite sheet. Electrodes may be connected to the heat conductive plate and the metal layer, respectively. According to the disclosure, the heat conductive plate, the composite sheet, the electroconductive metal layer, and the electrodes are radiant heat interfacial components disposed between battery cells, and the composite sheet includes a piezoelectric material and a heat conductive filler dispersed and filled in a matrix resin. | 02-13-2014 |
20140083211 | METHOD AND APPARATUS FOR NON-DESTRUCTIVE MEASUREMENT OF A COMPOSITE MATERIAL - Disclosed is an integrated measurement apparatus that may perform measurement of various material characteristics (e.g., thermal conductivity, electrical conductivity, magnetic inductivity, etc.) and defects of a composite material in a non-destructive manner. The apparatus may include: a jig chamber having a door; a first jig device for measuring electrical characteristics, a second jig device for measuring magnetic characteristics, and a third jig device for measuring magnetic characteristics, the three jig devices interchangeably mounted in the jig chamber so that either the first, second, or third jig device may be used to measure a composite material sample. | 03-27-2014 |
20140318746 | DEVICE FOR INDIRECTLY COOLING BATTERY MODULE OF ECO-FRIENDLY VEHICLE - A device for indirectly cooling a battery module of an eco-friendly vehicle is provided that cools the battery module using an interfacial plate into which a heat pipe is inserted to maximize battery heat emission performance and simultaneously prevent degradation of battery performance. A thermally-conductive interfacial plate in which a heat pipe is embedded by over-molding is disposed between battery cells and a heat sink, which is a condensation unit, integrally connected to an upper end of the heat pipe is disposed in a cooling air flow path to improve contact strength between the interfacial plate and the battery cells. A planar heat emitter is disposed between the battery cells where the interfacial plate is not disposed to heat the battery to a proper-level temperature in a cold-start environment and a low-temperature environment, thereby improving battery performance and preventing degradation in vehicle power. | 10-30-2014 |
20140339461 | HIGH HEAT RADIATION COMPOSITE AND A METHOD OF FABRICATING THE SAME - The present disclosure provides a high heat radiation composite material including a hybrid filler comprising expanded graphite filled with expandable polymeric beads, and a fabrication method thereof. In the method, a dispersion solution is prepared by dispersing expandable polymeric beads in ethanol. Expanded graphite is immersed in the dispersion solution, and heat-treated to remove ethanol, thereby producing the hybrid filler. The hybrid filler is dispersed into the matrix polymer via an extrusion/injection process, thereby producing the composite material. | 11-20-2014 |
20140363719 | APPARATUS FOR INDIRECTLY COOLING AND HEATING BATTERY MODULE OF VEHICLE - apparatus for indirectly cooling and heating a battery module of an eco-friendly vehicle can maximize the heat-radiant performance of a battery, thus preventing volume expansion due to heating. The apparatus includes a thermally and electrically conductive interface plate embedded by overmolding a plurality of heat pipes and electrodes placed between the heat pipes closely between battery cells. A heat sink, that is a condensation part, is integrally connected to an upper end of the heat pipe on an air cooling channel of a battery housing. The apparatus can further improve the battery performance and prevent decreased output of a vehicle by heating the battery to an appropriate temperature under cold starting and low temperature environments. | 12-11-2014 |
20150040583 | HEAT DISSIPATION DEVICE FOR ELECTRONIC CONTROLLERS - A heat dissipation device for electronic controllers, is provided and includes a housing that has a hollow portion into which a working fluid for heat transfer and dissipation is filled. The housing of the electronic controller is formed to have the hollow portion using the material containing the heat-conductive filler and the heat transfer working fluid is filled in the hollow portion, to improve the cooling efficiency and achieving the weight reduction. By forming the condensation unit that condenses the vaporized working fluid in the upper end portion relative to the working fluid filled in the hollow portion of the housing, the heat exchange effect of the working fluid may be maximized. | 02-12-2015 |