Abstract: A tire includes a radio frequency identification (RFID) system and a rubber patch including a topping rubber topping the RFID system, wherein the topping rubber includes a raw material rubber and a reinforcing filler including a boron nitride. In the tire including a RFID system, since the RFID system is covered with a rubber similar to a nearby rubber, generation of a boundary therebetween is suppressed to lower a possibility of the occurrence of initial cracking at a portion where the RFID system is applied, thus increasing durability and safety, and since insulating properties of the rubber covering the RFID system are enhanced, a recognition distance of the RFID system is increased to further facilitate management of distribution and history.

Abstract: A method for manufacturing a thermoelectric material is provided. According to the method, a first shaped body is formed from a thermoelectric powder, of which a crystal has a layer structure. An extruded body is formed by extruding the first shaped body. A plurality of cut-off pieces are formed by cutting the extruded body along a cross-section perpendicular to an extrusion direction. A second shaped body is formed by stacking and pressing the cut-off pieces along a direction perpendicular to the extrusion direction. According to the above, a thermoelectric ability of a thermoelectric material and an efficiency for manufacturing a thermoelectric module may be improved.

Abstract: A tire includes a radio frequency identification (RFID) system and a rubber patch including a topping rubber topping the RFID system, wherein the topping rubber includes a raw material rubber and a reinforcing filler including a boron nitride. In the tire including a RFID system, since the RFID system is covered with a rubber similar to a nearby rubber, generation of a boundary therebetween is suppressed to lower a possibility of the occurrence of initial cracking at a portion where the RFID system is applied, thus increasing durability and safety, and since insulating properties of the rubber covering the RFID system are enhanced, a recognition distance of the RFID system is increased to further facilitate management of distribution and history.

Abstract: A method for manufacturing a thermoelectric material is provided. According to the method, a first shaped body is formed from a thermoelectric powder, of which a crystal has a layer structure. An extruded body is formed by extruding the first shaped body. A plurality of cut-off pieces are formed by cutting the extruded body along a cross-section perpendicular to an extrusion direction. A second shaped body is formed by stacking and pressing the cut-off pieces along a direction perpendicular to the extrusion direction.

Abstract: In a mixing tip of an impression material cartridge, a top connective plate is on the center of the top of a pair of cylinders, with an impression material cartridge installed with the connecting end of each of a pair of mixing tips facing each other located on each side of the top connective plate, and a mixing screw inserted into a protruding mixing tube on the center of the upper part, with a connective structure of the mixing tips having protruding connecting wings on the lower side of the supporting structure, formed to achieve diagonal symmetry of a rotational bump on the end surface of the connecting wings on a lower supporting side of the mixing tips, and on the lower surface of the rotational bump, cylindrical guide pins that guide the connecting direction of the mixing tips are each formed to protrude towards the bottom.

Abstract: A flag type hybrid solar cell is provided, which combines nano-wire solar cells using nano-wires and nano-generators using piezoelectric effect, and which is usable anywhere as long as there are sun and the winds, since the nano-wire solar cells absorb solar beam and generate electromotive force during the days, while the nano-generators using piezoelectric effect generate electromotive force with micro vibration of the nano-wires in response to winds, and thus is capable of providing more power generation during the days, by providing the power generation by the nano-wire solar cells added with power generation by the nano-generators using piezoelectric effect.

Abstract: A squeezing gun for two-part medical viscous fluid that simultaneously squeezes two different kinds of medical viscous fluid contained in a double cartridge including two tubes containing the respective different kinds of fluids. Two horizontal scroll bars are moved horizontally to actuate the squeezing of the fluids and are driven by a driving motor.

Abstract: In a mixing tip of an impression material cartridge, a top connective plate is on the center of the top of a pair of cylinders, with an impression material cartridge installed with the connecting end of each of a pair of mixing tips facing each other located on each side of the top connective plate, and a mixing screw inserted into a protruding mixing tube on the center of the upper part, with a connective structure of the mixing tips having protruding connecting wings on the lower side of the supporting structure, formed to achieve diagonal symmetry of a rotational bump on the end surface of the connecting wings on a lower supporting side of the mixing tips, and on the lower surface of the rotational bump, cylindrical guide pins that guide the connecting direction of the mixing tips are each formed to protrude towards the bottom.

Abstract: This invention is about squeezing gun for two-part medical viscous fluid that squeezes two different kinds of medical viscous fluid simultaneously that are contained in double cartridge where two tubes are combined in one body and when explained in more detail, this invention is to squeeze simultaneously two kinds of medical viscous fluid that are contained in double cartridge while two horizontal scroll bars are moving horizontally as driving power of driving motor is being reduced when push button of squeezing gun which has the shape of pistol is pressed.