Ming-Tsai
Ming-Tsai Liang, Kaohsiung TW
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20080296794 | Underwater Pelletizing Machine and Method of Extruding Foamed Thermoplastic Pellets - A pelletizing machine for forming pellets from extruded material includes an extruder having at least one exit port and a body defining a cutting chamber through which high-temperature liquid flows, flooding the cutting chamber. The exit port of the extruder opens into the cutting chamber, which includes a cutting section defining a flow path for liquid through the cutting section. A cutter in the cutting section of the cutting chamber is mounted for rotation about an axis generally perpendicular to the first direction and disposed for cutting the extruded material exiting the exit port into the pellets. The axis of rotation of the cutter is parallel to or coincident with the flow path of the cutting section. A method for forming pellets of thermoplastic material with a foaming agent is also disclosed. | 12-04-2008 |
20140287911 | COPPER-BASED CATALYST FOR CONVERTING AMMONIA INTO NITROGEN - A copper-based catalyst which is suitable for converting ammonia of high concentration and with better selectivity, thereby solving a problem of pollution and toxicity due to nitrogen oxides by a conventional catalyst reacting under high temperature is disclosed. The copper-based catalyst comprises: a porous oxide support and a low valent copper compound mixing with the porous oxide support by an acid hydrothermal method; wherein the low valent copper compound with is Cu and Cu | 09-25-2014 |
20140322078 | METHOD FOR DECONTAMINATING BRICK OR CONCRETE - A method for decontaminating a brick or concrete according to the present invention comprises the steps of: pulverizing the brick or the concrete by using a pulverizing device (pulverizing step); arranging the brick or concrete in a container room and washing the brick or concrete by using a decontamination agent in the container room (washing), wherein the container room has a pressure of above 74 Pa, and a temperature of above 32° C., and the decontamination agent includes a supercritical carbon dioxide flow, a cosolvent and a metal chelating agent; introducing a replacing fluid to the container room to replace the decontamination agent in the container room and then separating the replacing fluid and the brick or concrete (replacing and separating step); and acid cleaning the cosolvent and the metal chelating agent by using an acidic solution (acid cleaning step). A radionuclide may be decontaminated from the brick or concrete. | 10-30-2014 |
Ming-Tsai Liang, Kaohsiung City TW
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20150233860 | IRIDIUM-DOPED CARBON NANOTUBE AND ELECTRODE AND SENSOR CONTAINING THE SAME - An iridium-doped carbon nanotube has an atomic ratio of iridium to carbon on a surface thereof ranging from 1×10 | 08-20-2015 |
Ming-Tsai Wang, Beigang Township TW
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20090058756 | Antenna supporter, antenna assembly and machine having the antenna assembly - An antenna supporter is for being installed on a machine. The machine is to execute an operation on an object having a tubular core, and the tubular core is equipped with an RFID tag. The antenna supporter includes a securing portion and a non-metal surface. The securing portion is for fixing onto the machine. The non-metal surface is for supporting an antenna. The non-metal surface is spaced from the machine in a predetermined distance and disposed near an opening of the tubular core. An antenna assembly having the above-mentioned antenna supporter, and a machine having the antenna assembly are also provided. | 03-05-2009 |
Ming-Tsai Wang, Taipei TW
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20090020613 | THIN FLEXIBLE SMART CARD AND PACKAGING METHOD THEREOF - A method for packaging a smart card is provided. The method includes steps of providing a first thermoforming plastic piece; providing a first piece on the first thermoforming plastic piece and having an aperture; disposing an electrical element on the first thermoforming plastic piece and in the aperture; providing a second thermoforming plastic piece covering the first piece and the electrical element; and heating the first and the second thermoforming plastic pieces. | 01-22-2009 |
Ming-Tsai Wang, Dongguan CN
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20090008228 | POWER SAVING DEVICE FOR POWER SOURCE - The present invention teaches a power saving device comprising a power saving circuit, said power saving circuit comprises a microprocessor (U | 01-08-2009 |
Ming-Tsai Wang, Dailiao Township TW
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20110242808 | Lighting Device Having Enhanced Brightness - A lighting device includes a main body, a plurality of light emitting members mounted in the main body, a heat radiating unit mounted on the main body to provide a heat radiating effect to the light emitting members, and a lens mounted on the main body to regulate a light emitting effect of the light emitting members. The lens includes a plurality of arcuate faces having different curvatures. Thus, the light emitting members co-operate with the arcuate faces of the lens to enhance the brightness and lighting efficiency of the light emitting members and to save the electric energy. In addition, the heat radiating unit prevents concentration of a heat radiation by arrangement of the upright heat radiating fins and the inclined heat radiating fins to enhance the heat radiating effect of the heat radiating unit. | 10-06-2011 |
20110242812 | Lighting Device Having Enhanced Brightness - A lighting device includes a plurality of light emitting members and a printed circuit board mounted in the main body and electrically connected to each of the light emitting members. The light emitting members are arranged on the printed circuit board in an annular manner to form at least one annular layer of light emitting members to prevent from incurring a concentration of heat radiation and to prevent from producing a greater heat so as to enhance the brightness and lifetime of the light emitting members. | 10-06-2011 |