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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 26. Отображено 26.
04-07-2013 дата публикации

COMPOSITE MATERIAL

Номер: WO2013099436A1
Автор: FUJIEDA Tadashi, NAITO Takashi, AOYAGI Takuya, SAWAI Yuichi, MURAKAMI Hajime, YOSHIDA Hiroshi, MIYAUCHI Akihiro, OGINO Masahiko
Принадлежит:

The mechanical strength of a composite material is increased by simple processes. In a composite material which comprises a resin or a rubber and oxide glass, the resin or the rubber is dispersed in the oxide glass, or alternatively, the oxide glass is dispersed in the resin or in the rubber, and the oxide glass is softened and fluidized by heating at a temperature not higher than the thermal decomposition temperature of the resin or the rubber.

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Номер записи: 1
27-12-2013 дата публикации

SEALED CONTAINER, ELECTRONIC DEVICE, AND SOLAR CELL MODULE

Номер: WO2013190981A1
Автор: FUJIEDA Tadashi, NAITO Takashi, AOYAGI Takuya, SAWAI Yuichi
Принадлежит:

This invention has a glass member (4a), a metal member (5a), and a transition metal oxide glass (3) that fuses onto both the glass member (4a) and the metal member (5a). The transition metal oxide glass (3) is an n-type semiconductor. This invention is formed by bonding the glass member (4a) and the metal member (5a) using the transition metal oxide glass (3). The transition metal oxide glass (3) has transition metal ions having different valences, and the number of transition metal ions having higher valences is greater than the number of transition metal ions having lower valences. The transition metal oxide glass (3) contains vanadium, at least one of tellurium and phosphorus, and at least one of silver, iron, tungsten, copper, an alkali metal, and an alkali earth metal. The transition metal oxide glass (3) contains vanadium oxide, tellurium oxide, phosphorus oxide, and iron oxide, and the total mass thereof is no less than 75 mass% in relation to the mass of the transition metal oxide ...

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Номер записи: 2
31-07-2014 дата публикации

CIRCUIT BOARD AND CIRCUIT-BOARD MANUFACTURING METHOD

Номер: WO2014115252A1
Автор: MIYAGI Masanori, NAITO Takashi, AOYAGI Takuya, KODAMA Motomune, FUJIEDA Tadashi, SAWAI Yuichi, KAWAMURA Toshinori
Принадлежит:

The purpose of the present invention is to improve adhesion between a circuit board and a material for obtaining interlayer conductivity, resulting in stable, low-resistance electrical connectivity. In order to fulfill said purpose, in this circuit board, which comprises a layered plurality of substrates with wiring formed thereon and has a conductive material that conducts electricity between said substrates, said conductive material contains the following: oxides containing vanadium, tellurium, and either phosphorus or silver; and a conductive substance. Also, this method for manufacturing a circuit board comprising a layered plurality of substrates with wiring formed thereon has the following steps: a step in which a conductive substance and oxides containing vanadium, tellurium, and either phosphorus or silver are supplied to holes in the aforementioned substrates; and a step in which said conductive substance and oxides are exposed to electromagnetic radiation, thereby softening and ...

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Номер записи: 3
03-07-2014 дата публикации

HEAT-RESISTANT WIRING COMPONENT AND METHOD FOR MANUFACTURING SAME

Номер: WO2014102921A1
Автор: AMOU Satoru, KAJIHARA Yuri, NAITO Takashi, SAWAI Yuichi, KODAMA Motomune, KIKUCHI Shigeru
Принадлежит:

Provided are: a wiring component, which is configured from an inorganic barrier layer having crack/pinhole repairable characteristics, and excellent adhesiveness, an insulating resin layer, and conductor wiring; and a method for manufacturing the wiring component. This wiring component is characterized in having at least one insulating resin layer (2) and at least one inorganic barrier layer (3) disposed on conductor wiring (1). It is preferable that a softening point of the inorganic barrier layer (3) is 200°C or higher but below 350°C, and a temperature at which the insulating resin layer (2) has 5 wt% thermal weight reduction is higher than the softening point of the inorganic barrier layer (3). The inorganic barrier layer (3) is preferably a lead-free glass composition, contains 75 wt% or more Ag2O, V2O5 and TeO2, and is formed by means of a cold spray method.

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Номер записи: 4
15-05-2014 дата публикации

THERMOELECTRIC CONVERSION MODULE AND METHOD FOR MANUFACTURING SAME

Номер: WO2014073095A1
Автор: FUJIEDA Tadashi, NAITOU Takashi, AOYAGI Takuya, SAWAI Yuuichi, YOSHIMOTO Mamoru, MATSUDA Akifumi
Принадлежит:

The present invention provides a thermoelectric conversion module capable of realizing higher power output density than the prior art and a method for manufacturing same. A thermoelectric conversion module characterized in being provided with a supporting substrate, a plurality of thermoelectric conversion element materials and an electrode. The thermoelectric conversion element materials are disposed on the supporting substrate and comprise vanadium oxide crystallized glass containing vanadium oxide crystal and an amorphous material. The electrode, which is disposed on the supporting substrate, interconnects the thermoelectric conversion element materials, and is connected to an external load consuming an electromotive force generated in the thermoelectric conversion element materials. The thermoelectric conversion element materials and the electrode are joined together via at least the amorphous material contained in the thermoelectric conversion element material.

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Номер записи: 5
02-05-2013 дата публикации

COMPOSITE THERMOELECTRIC CONVERSION MATERIAL, THERMOELECTRIC CONVERSION MATERIAL PASTE USING SAME, AND THEMOELECTRIC CONVERSION MODULE USING SAME

Номер: WO2013061739A1
Автор: FUJIEDA Tadashi, SAWAI Yuichi, NAITO Takashi, AOYAGI Takuya, YAMAMOTO Hiroki, TAKANO Hideaki
Принадлежит:

Provided are: a composite thermoelectric conversion material with which it is possible to produce high-performance thermoelectric conversion elements using a low-cost process; a thermoelectric conversion material paste using the composite thermoelectric conversion material; and a low-cost, high-efficiency thermoelectric conversion module. The composite thermoelectric conversion material according to the present invention is obtained by forming a composite of a semiconductor thermoelectric conversion material and a binder, and is characterized in that the binder is a semiconductor glass having the same polarity as the semiconductor thermoelectric conversion material, and in that the semiconductor glass is a lead-free glass which has a softening point of 480°C or lower and includes vanadium oxide when the components are expressed as oxides.

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Номер записи: 6
04-07-2013 дата публикации

COMPOSITE MATERIAL

Номер: WO2013099478A1
Автор: NAITO Takashi, FUJIEDA Tadashi, AOYAGI Takuya, SAWAI Yuichi, MURAKAMI Hajime, OGINO Masahiko, MIYAUCHI Akihiro, YOSHIDA Hiroshi
Принадлежит:

The gas barrier properties of a laminate, which is configured of oxide glass and a base that contains a resin or a rubber, are improved. A composite material which is obtained by forming a dense layer of oxide glass (2) on a base (1) that contains a resin or a rubber. The oxide glass is softened and fluidized by the irradiation of an electromagnetic wave, so that the oxide glass is bonded to the base.

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Номер записи: 7
08-05-2014 дата публикации

HEAT STORAGE SYSTEM AND POWER GENERATION SYSTEM

Номер: WO2014068628A1
Автор: SAWAI Yuichi, NAITO Takashi, NAKANO Hiroshi, FUJIEDA Tadashi, KUSUNOKI Toshiaki, KODAMA Motomune, AOYAGI Takuya
Принадлежит:

The present invention improves heat storage quantity of a heat storage system. This heat storage system that is provided with a heat storage section for storing heat energy supplied from a heat source is characterized in that a heat storage material which stores or transports the heat energy in the heat storage section is a glass containing V2O5.

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Номер записи: 8
09-10-2014 дата публикации

MATERIAL FOR LIGHT-EMITTING LAYER, DISPERSION LIQUID FOR LIGHT-EMITTING LAYER, AND LIGHT-EMITTING ELEMENT

Номер: WO2014162566A1
Автор: ARATANI Sukekazu, SAKUMA Hirotaka, SAWAI Yuichi, NAITOU Takashi, SASAKI Hiroshi
Принадлежит:

A light-emitting element in which an inorganic host material is used and higher efficiency and higher durability are achieved, the light-emitting element being characterized in having an upper electrode and a lower electrode provided so as to face each other on a substrate, and a light-emitting layer including a hole transportation layer and an electron transportation layer disposed between the electrodes, the light-emitting layer containing an inorganic compound used as a host material and a dopant including a substitution group for promoting charge injection from the inorganic compound.

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Номер записи: 9
15-05-2014 дата публикации

WIRING BOARD AND METHOD FOR MANUFACTURING SAME

Номер: WO2014073085A1
Автор: MIYAGI Masanori, NAITO Takashi, AOYAGI Takuya, FUJIEDA Tadashi, SAWAI Yuichi, KODAMA Motomune
Принадлежит:

The present invention eliminates deterioration of a resin substrate having an electrode/wiring formed thereon. In this wiring board wherein an electrode and wiring are formed on a substrate, the substrate is a resin substrate, and the electrode and/or the wiring is formed by softening an oxide on the resin substrate, said oxide containing P or Ag, and V and Te. Furthermore, this method for manufacturing a wiring board wherein an electrode and wiring are formed on a substrate, which is a resin substrate, is provided with: a step for supplying the resin substrate with an oxide that contains P or Ag, and V and Te; and a step for forming the electrode and/or the wiring by softening the oxide on the resin substrate by radiating electromagnetic waves to the oxide.

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Номер записи: 10
03-07-2014 дата публикации

LOW-MELTING-POINT GLASS RESIN COMPOSITE MATERIAL AND ELECTRONIC/ELECTRIC APPARATUS USING SAME

Номер: WO2014102915A1
Автор: KAJIHARA Yuri, AMOU Satoru, NAITO Takashi, SAWAI Yuichi, KODAMA Motomune
Принадлежит:

The purpose of the present invention is to provide a low-melting-point glass resin composite material wherein heat resistance and heat conductivity of an insulating resin are improved. This low-melting-point glass resin composite material is characterized in containing: a lead-free low-melting-point glass composition, which contains Ag2O, V2O5 and TeO2, and in which a total content rate of Ag2O, V2O5 and TeO2 is 75 mass% or more; and a resin composition wherein the 5% thermal weight reduction temperature thereof is equal to or higher than the softening point temperature of the low-melting-point glass composition.

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Номер записи: 11
24-04-2014 дата публикации

ELECTRONIC COMPONENT, PROCESS FOR PRODUCING SAME, SEALING MATERIAL PASTE, AND FILLER PARTICLES

Номер: WO2014061515A1
Автор: NAITO Takashi, TACHIZONO Shinichi, YOSHIMURA Kei, HASHIBA Yuji, AOYAGI Takuya, MIYAGI Masanori, KODAMA Motomune, SAWAI Yuichi, FUJIEDA Tadashi, TSUKAMOTO Takeshi, MURAKAMI Hajime
Принадлежит:

An electronic component equipped with two substrates, at least either of which is transparent, an organic member disposed therebetween, and a uniting part disposed along the peripheral parts of the two substrates, wherein the uniting part comprises a low-melting glass and filler particles, the low-melting glass containing vanadium oxide and the filler particles comprising a lowly heat-expandable material and an oxide including a divalent transition metal as a constituent element. The oxide has been dispersed in the lowly heat-expandable material, and the lowly heat-expandable material has a coefficient of thermal expansion in the temperature range 30-250ºC of 5×10-7 /ºC or less. Due to this, heating of the filler particles by irradiation with a laser is made possible and an electrical component having a highly reliable uniting part can be obtained.

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Номер записи: 12
02-10-2014 дата публикации

THERMOELECTRIC CONVERSION DEVICE

Номер: WO2014155643A1
Автор: TAKUBO Chisaki, TAKANO Hideaki, FUJIEDA Tadashi, NAITO Takashi, SAWAI Yuichi
Принадлежит:

In order to provide a thermoelectric conversion device of higher reliability which better suppresses thermal stress between an electrode/a substrate and a thermal conversion unit, a thermoelectric conversion device is of a structure having: a thermoelectric composite which has thermoelectric conversion units (1, 5) which include a thermoelectric conversion material and vanadium glass, and first and second electrode structures (2, 3) which include an electrode material and vanadium glass; a first electrode wire (7) which electrically connects the first electrode structure with another thermoelectric composite; and a second electrode wire (7) which electrically connects the second electrode structure with another thermoelectric composite.

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Номер записи: 13
01-08-2013 дата публикации

INK, BASE TO BE PRINTED, PRINTING DEVICE, PRINTING METHOD, AND METHOD FOR PRODUCING BASE TO BE PRINTED

Номер: WO2013111456A1
Автор: OGINO Masahiko, SAWAI Yuichi, NAITO Takashi, TAKAHASHI Naoshi, SASAKI Hiroshi, SOUMA Kenichi
Принадлежит:

The purpose of the present invention is to prevent the discoloration of an ink even when the ink is printed on a base to be printed and then exposed to a high-temperature environment. An ink comprising a glass composition, wherein the glass composition (1) comprises Ag, V and a vitrescible component.

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Номер записи: 14
18-10-2012 дата публикации

ELECTRONIC COMPONENT, ALUMINUM ELECTRODE CONDUCTIVE PASTE FOR APPLICATION IN SAME, AND ALUMINUM ELECTRODE GLASS COMPOSITION

Номер: WO2012141187A1
Автор: NAITO Takashi, AOYAGI Takuya, TACHIZONO Shinichi, YOSHIMURA Kei, HASHIBA Yuji, SAWAI Yuichi, KOMATSU Naoya
Принадлежит:

The present invention provides an aluminum electrode conductive paste whereby high performance and high reliability can be achieved in a solar cell or other electronic component employing a silicon substrate; a glass composition contained therein; and an electronic component in which performance and reliability are improved thereby. This aluminum electrode conductive paste contains an aluminum electrode plus a V-P-B-O based, low-melting point glass, whereby the amount of aluminum diffusion into the silicon substrate can be increased, while the amount of oxygen diffusion can be reduced, and therefore the electronic component can be made highly reliable. Moreover, because the glass and aluminum have good wettability and reactivity, electrode reliability can be improved.

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Номер записи: 15
08-08-2013 дата публикации

ELECTRONIC COMPONENT, PRODUCTION METHOD THEREFOR, AND SEALING MATERIAL PASTE USED THEREIN

Номер: WO2013115101A1
Автор: NAITO Takashi, AOYAGI Takuya, TACHIZONO Shinichi, YOSHIMURA Kei, HASHIBA Yuji, SAWAI Yuichi, FUJIEDA Tadashi
Принадлежит:

Provided is an electronic component having an organic member (3) between two transparent substrates (1, 2). The outer peripheral sections of the two transparent substrates (1, 2) are bonded using a sealing material (5) that comprises low-melting-point glass. The low-melting-point glass comprises vanadium oxide (V2O5), tellurium oxide (TeO2), phosphorus oxide (P2O5), and iron oxide (Fe2O3), and in terms of oxide content, corresponds to the following: V2O5+TeO2+P2O5+Fe2O3≥75 mass%, and V2O5>TeO2>P2O5> Fe2O3 (in mass%).

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Номер записи: 16
06-02-2014 дата публикации

ELECTRONIC COMPONENT, METHOD FOR PRODUCING SAME, AND SEALING MATERIAL PASTE USED IN SAME

Номер: WO2014021187A1
Автор: NAITO Takashi, TACHIZONO Shinichi, YOSHIMURA Kei, HASHIBA Yuji, KODAMA Motomune, MIYAGI Masanori, AOYAGI Takuya, SAWAI Yuichi, FUJIEDA Tadashi, TSUKAMOTO Takeshi, MURAKAMI Hajime
Принадлежит:

An electronic component which comprises an organic member between two transparent substrates, and wherein the outer peripheral portions of the two transparent substrates are bonded with each other using a sealing material that contains low melting point glass. The low melting point glass contains vanadium oxide, tellurium oxide, iron oxide and phosphorus oxide, and satisfies formulae (1) and (2) in terms of oxides. A sealing material paste which contains low melting point glass, a resin binder and a solvent, and wherein the low melting point glass contains vanadium oxide, tellurium oxide, iron oxide and phosphorus oxide, and satisfies formulae (1) and (2) in terms of oxides. Consequently, thermal damage to an organic element or an organic material that is built in an electronic component can be reduced, and whereby an electronic component that has a highly reliable glass bonding layer can be efficiently produced. V2O5 + TeO2 + Fe2O3 + P2O5 ≥ 90 mass% (1) V2O5 > TeO2 > Fe2O3 > P2O5 (mass ...

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Номер записи: 17
06-09-2013 дата публикации

ELECTRODE ACTIVE MATERIAL, ELECTRODE USING ELECTRODE ACTIVE MATERIAL, AND SECONDARY BATTERY

Номер: WO2013129150A1
Автор: AOYAGI Takuya, NAITO Takashi, FUJIEDA Tadashi, SAWAI Yuichi, KITAGAWA Kan, GUNJI Akira, KONISHI Hiroaki, FENG Xiaoliang, MURAKAMI Hajime
Принадлежит:

The present invention is an electrode active material (100) provided with an active-material-body particle (101) capable of absorbing and discharging metal ions, and an oxide phase (102) supported by the active-material-body particle (101), the electrode active material (100) being characterized in that: the oxide phase (102) is formed of a glass capable of absorbing and discharging the metal ions; and the glass contains at least one type of oxide from among the oxides of V, Fe, Mn, Ni and Co, and contains at least one type of oxide from among the oxides of P, B, Te, Ba and Ge.

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Номер записи: 18
04-07-2013 дата публикации

COMPOSITE MATERIAL

Номер: WO2013099469A1
Автор: AOYAGI Takuya, NAITO Takashi, FUJIEDA Tadashi, SAWAI Yuichi, MURAKAMI Hajime, YOSHIDA Hiroshi, MIYAUCHI Akihiro, OGINO Masahiko
Принадлежит:

The mechanical strength of this composite material is improved by means of a simple process. This composite material has a resin or rubber and an oxide glass, with said resin or rubber being dispersed in said oxide glass, or, said oxide glass being dispersed in said resin or rubber. The composite material has a function whereby the oxide glass is softened and fluidized by means of electromagnetic waves.

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Номер записи: 19
16-05-2013 дата публикации

ELECTRONIC COMPONENT, CONDUCTIVE PASTE FOR ALUMINUM ELECTRODES USED IN SAME, AND GLASS COMPOSITION FOR ALUMINUM ELECTRODES

Номер: WO2013069668A1
Автор: NAITO Takashi, AOYAGI Takuya, TACHIZONO Shinichi, YOSHIMURA Kei, HASHIBA Yuji, SAWAI Yuichi, KOMATSU Naoya, FUJIEDA Tadashi
Принадлежит:

Provided are: an electronic component, the manufacturing yield, performance and reliability of which satisfy standards that can be applied in a practical sense; a conductive paste for aluminum electrodes that are used in the electronic component; and a glass composition for the aluminum electrodes. This glass composition for the electrodes of the electronic component is obtained by forming an electrode having metal particles and a glass phase formed on a silicon substrate, and is characterized by being an oxide glass: wherein the glass phase in the electrodes contains at least oxides of vanadium, antimony and boron, and further contains at least one type of oxide of phosphorus, tellurium, barium and tungsten; the content of phosphorus is less than 10% by mass in terms of oxide; and the content of lead in the glass is not more than 1,000 ppm.

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Номер записи: 20
15-05-2014 дата публикации

BONDED STRUCTURE AND PRODUCTION METHOD THEREFOR

Номер: WO2014073086A1
Автор: KODAMA Motomune, NAITO Takashi, SAWAI Yuichi, FUJIEDA Tadashi, AOYAGI Takuya, MIYAGI Masanori
Принадлежит:

The purpose of the present invention is to prevent deterioration in a resin base material of a bonded structure. In the bonded structure comprising two base materials, at least one thereof being resin, an oxide bonds the two base materials, said oxide including V, Te, and either P or Ag, and being softened and formed upon the two base materials. A production method for the bonded structure comprising two base materials, at least one thereof being resin, comprises: a step in which the oxide including V, Te, and either P or Ag is supplied to the base materials; and a step in which electromagnetic waves are irradiated on the oxide, and the oxide softened upon a substrate bonds the base materials.

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Номер записи: 21
04-07-2013 дата публикации

LAMINATE, AND ORGANIC EL ELEMENT, WINDOW AND SOLAR CELL MODULE, EACH USING SAME

Номер: WO2013099479A1
Автор: SAWAI Yuichi, NAITO Takashi, AOYAGI Takuya, FUJIEDA Tadashi, MURAKAMI Hajime, YOSHIDA Hiroshi, OGINO Masahiko, MIYAUCHI Akihiro
Принадлежит:

The gas barrier properties of a laminate, which is configured of oxide glass and a base that contains a resin or a rubber, are improved. A laminate (8) is provided with: a base (9) that contains a resin or a rubber; and oxide glass (10) that is formed on at least one surface of the base. The oxide glass is softened and fluidized at a temperature not higher than the softening temperature of the base, thereby being bonded to the base.

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Номер записи: 22
26-09-2013 дата публикации

METAL MATRIX COMPOSITE AND METHOD FOR MANUFACTURING SAME

Номер: WO2013140832A1
Автор: FUJIEDA Tadashi, NAITO Takashi, AOYAGI Takuya, SAWAI Yuichi
Принадлежит:

Provided is a metal matrix composite having high corrosion resistance despite the amount of adhering coating being low. A metal matrix composite in which a metal or alloy substrate is coated with a molten transition metal oxide glass, wherein the polarity of the transition metal oxide glass is n-type. A method for manufacturing a metal matrix composite, provided with a step for applying a paste including a transition metal oxide glass, an organic binder, and an organic solvent on a surface of a metal or alloy substrate, and a step for forming a glass coating film on the substrate by heating to and maintaining a temperature equal to or above the softening temperature of the transition metal oxide glass after the application step, wherein the polarity of the transition metal oxide glass is n-type.

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Номер записи: 23
10-01-2013 дата публикации

GLASS COMPOSITION, GLASS FRIT CONTAINING SAME, GLASS PASTE CONTAINING SAME, AND ELECTRICAL/ELECTRONIC COMPONENT OBTAINED USING SAME

Номер: WO2013005600A1
Автор: SAWAI Yuichi, NAITO Takashi, AOYAGI Takuya, FUJIEDA Tadashi
Принадлежит:

A purpose of the present invention is to provide a lead-free glass composition which can be softened and flowed at a firing temperature that is the same as or lower than the firing temperatures of conventional low-melting lead-containing glasses. Another purpose of the invention is to provide a lead-free glass composition which has satisfactory thermal stability and satisfactory chemical stability besides that property. The lead-free glass compositions according to the invention are characterized by comprising Ag2O, V2O5, and TeO2 when the components are expressed by oxides, the total content of Ag2O, V2O5, and TeO2 being 75 mass% or higher. Preferably, each composition comprises 10-60 mass% Ag2O, 5-65 mass% V2O5, and 15-50 mass% TeO2.

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Номер записи: 24
01-08-2013 дата публикации

ASSEMBLY AND SEMICONDUCTOR MODULE

Номер: WO2013111434A1
Автор: SAWAI Yuichi, NAITO Takashi, AOYAGI Takuya, FUJIEDA Tadashi, MORI Mutsuhiro
Принадлежит:

To improve adhesion and thermal conductivity of an assembly in which a metal, a ceramic or a semiconductor is bonded. An assembly, which is obtained by bonding a second member with a first member that is a metal, a ceramic or a semiconductor, and wherein; the second member is bonded via an adhesive member that is provided on a surface of the first member; and the adhesive member contains V2O5-containing glass and metal particles. A semiconductor module, which is provided with a base metal, a ceramic substrate, a metal wiring line and a semiconductor chip, and wherein: the ceramic substrate is bonded via a first adhesive member that is provided on a surface of the base metal; the metal wiring line is bonded via a second adhesive member that is provided on a surface of the ceramic substrate; the semiconductor chip is bonded via a third adhesive member that is provided on a surface of the metal wiring line; and the first adhesive member, the second adhesive member and the third adhesive member ...

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Номер записи: 25
06-03-2014 дата публикации

THERMOELECTRIC CONVERSION DEVICE

Номер: WO2014033891A1
Автор: TAKUBO Chisaki, TAKANO Hideaki, ASAI Kengo, NAITO Takashi, FUJIEDA Tadashi, SAWAI Yuichi, SAKUMA Noriyuki
Принадлежит:

In a thermoelectric conversion device, support substrates (13, 14) and electrodes (11, 12) formed on the support substrates, and thermoelectric conversion parts (7, 10) that are formed on electrodes and contain semiconductor glass are provided. The semiconductor glass is non-lead glass containing vanadium, and the electrodes contain any of Al, Ti, nitride of Ti, W, nitride of W, silicide of W, Ta, Cr, and Si. This configuration makes it possible to provide a device structure that is obtained by using a composite material produced by a low-cost producing method and having high thermoelectric conversion properties, and also that solves problems intrinsic to such a composite material, and as a result, this makes it possible to provide a low-cost, high-performance, and highly-reliable thermoelectric conversion device.

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Номер записи: 26