WO/2003/097552 A METHOD OF WAFER/SUBSTRATE BONDING||WO||27.11.2003|
||PCT/SG2002/000072||AGENCY FOR SCIENCE TECHNOLOGY AND RESEARCH||WEI, Jun|
A method of bonding two components by depositing an amorphous and non-hydrogenated intermediate layer (2) on one of the components (1,4) and arranging the components (1,4) in spaced relationship with the intermediate layer (2) therebetween. The method further comprises heating one or both of the components (1,4) before bringing the components (1,4) into contact. Finally, a voltage is applied to the components (1,4) to create a permanent bond between the two components.
WO/2003/091611 METAL DIAPHRAGM VALVE||WO||06.11.2003|
||PCT/JP2002/004102||FUJIKIN INCORPORATED||ITOI, Shigeru|
A metal diaphragm valve used for a semiconductor manufacturing device allowing a large amount of flow to pass therein in spite of a compact size by reducing a fluid resistance of a flow passage ranging from a valve chamber to an outflow passage through an inflow passage in a valve body, comprising the body (2) having the inflow passage (6), the valve chamber (8), and the outflow passage (7), a metal diaphragm (3), a drive means (4), and an annular groove (5), characterized in that the diameter (D) of the outflow passage (6) is made larger than the groove width (W) of the annular groove (5), and the effective sectional area of the crossing portion of the annular groove (5) with the outflow passage (6) is made larger than the cross-sectional area of the outflow passage (6).
WO/2003/088721 ORGANIC FIELD EMISSION DEVICE AND EMISSION DEVICE||WO||23.10.2003|
||PCT/JP2002/005366||SONY CORPORATION||ISHIBASHI, Tadashi|
An organic field emission device of high luminance, performance, stability and reliability in which the emission color (hue) and the emission efficiency are not fluctuated by the concentration of the emitting material contained in an emitting layer or the drive condition of the applied voltage or the like. The organic field emission device comprises an anode (6), a hole-transport layer (2), a luminescent layer (3), and an electron-transport layer (4) or comprises an anode (6), a hole-transport layer (2) and a luminescent and electron-transport layer (4). A luminescent region is formed of a mixed layer where mixed is a luminescent material with charge transport property exhibiting field emission when a DC voltage is applied in a condition where the mixed layer is held as a single thin film between the anode (6) and a cathode (7), and a charge injection promoting material having charge-transport capacity and used for promoting charge injection in to this luminescent material but different from the luminescent material. This luminescent region is present not only at or near the interface with the adjacent layer but also in a region of predetermined thickness in the layer thickness direction.
WO/2003/072275 WET METHOD FOR TREATING PETROLEUM-ORIGINATED COMBUSTION ASH||WO||04.09.2003|
||PCT/JP2002/001794||KASHIMA-KITA, ELECTRIC POWER CORPORATION||SAKUMA, Akira|
A wet method for treating a petroleum-originated combustion ash which comprises a step of preparing a combustion ash slurry, a metal oxidation step of preparing a slurry containing ammonium m-vanadate, a solid-liquid separation step of removing solids from a slurry containing ammonium m-vanadate, an ammonium sulfate double decomposition step of adding a magnesium compound to an ammonium sulfate solution recovered from the solid-liquid separation step and an ammonia recovery step of recovering ammonia from a double decomposition solution recovered from the double decomposition step, wherein the metal oxidation step is carried out at a reaction temperature of 50˚C or lower and at a concentration of ammonium sulfate in the solution of 20 to 45 wt %, and the solid-liquid separation step is carried out at a slurry temperature of 40˚C or lower by using a specific solid-liquid separation apparatus. The above wet treatment method is suitably used in particular when a relatively small amount of combustion ash is treated or when the combustion ash has a low content of carbon and a high content of vanadium, and thus is an industrially advantageous method which allows the recovery of vanadium with ease and with a simple process.
WO/2003/054851 A PLECTRUM||WO||03.07.2003|
||PCT/SG2001/000258||LEONG, Weng, Onn||LEONG, Weng, Onn|
The present invention relates to a plectrum (1) having two portions (10, 12) being offset transversely but connected integrally by a stepped member (14). One portion (12) may have a tear-drop shaped playing edge (112), while the other portion may have a pointed edge (114) at one corner and another short pointed edge (118) at the second corner. A scallop playing edge (116) is typically joined to the short pointed edge (118). The stepped edge (14) is preferably in the shape of an arc. Other embodiments of the present invention include a plectrum (1a, 1b, 1c, 1d) having a planar body (20) with a tear-drop shaped playing edge (112a, 112b, 112c, 112d), a pointed playing edge (114a, 114b, 114c, 114d) and a short pointed edge (118a, 118b, 118c, 118d). A scallop shaped edge (116a, 116b, 116c, 116d) may be joined to the short playing edge (118). On the faces of the plectrum is preferably a ridge (201), a groove (202) or a combination of a ridge (201) and a groove (202) on the same or opposed face. The ridge or groove is optionally disposed across the centre of the plectrum and is in the form of an arc. The curved stepped edge (14) or the edges of the curved ridge (201) or groove (202) seek to provide a positive grip on the plectrum. The curved edges are also formed to fit comfortably with the curve of the user's thumb or finger.
||PCT/JP2002/004611||SONY CORPORATION||IWASE, Yuichi|
A display comprising organic electroluminescence elements (10R, 10G, 10B) arranged on a driving substrate (11) in which a drive panel (10) for picking up light from the electroluminescence elements (10R, 10G, 10B) side can be pasted easily to a seal panel (20) provided with a color filter (22) on a sealing substrate (21). The drive panel (10) and the seal panel (20) are disposed oppositely and pasted entirely by an adhesive layer (30). The adhesive layer (30) is hardened at least thermally and hardening is started by coating with only one liquid or more than one liquid. A temporary fixing part (30A) is formed at the circumferential edge part of the adhesive layer (30). The temporary fixing part (30A) is composed of UV-curing resin, for example, and formed across the seal panel (20) and the drive panel (10) thus matching the relative position thereof.
WO/2003/032280 METHOD FOR MANUFACTURING PET MODEL FOR TRAINING OF TRIMMING||WO||17.04.2003|
||PCT/JP2001/008748||PETMANN CO., LTD.||Jeremy, Cheung|
A method for manufacturing a pet model for the training of trimming which has a body formed through pouring a molten synthetic resin into a mold and body hairs planted on the body, wherein the body is comprised of a head and a trunk containing 4 legs, characterized in that it comprises a step of pouring the molten synthetic resin into a mold to carry out forming, a step of stuffing the inside of the body with chaffs of grain to fix a shape of the body, a step of planting the body hairs on the body with a hook, injecting an adhesive viscous material comprising a glue-like resin or the like into the inside of the body, and a step of assembling and joining the head and the trunk, and in that the body hairs above planted are firmly adhered to the body in the inside of the body and the above glue-like viscous material expands and then coagulate to thereby form the structure of the body, resulting in the formation of a pet model having the same shape as that of the mold.
WO/2003/030191 INDUCTANCE DEVICE||WO||10.04.2003|
||PCT/JP2002/003967||MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD.||KUWATA, Haruhiko|
An inductance device includes terminals (9) which are mounted to the inductance device from outside of a ring core (7). A fit-section (12) of one of each terminal (9) is bent along an outer wall (14), an upper face (15) of a groove (19), and an inner wall (13) of the ring core (7). A mount-section (11) of one of each terminal (9) extends from vicinity of an outer perimeter of the ring core (7) toward inside of a drum core (4) along a lower brim (3). When a shock is applied to the drum core (4) or the ring core (7), this structure prevents the drum core (4) and the ring core (7) from falling away from a board, where they have been mounted, leaving vicinity of the fit-section (12) of the terminal (9) on the board. This structure thus improves shock-proofness of the inductance device.
WO/2003/010413 DOWNHOLE ELECTRICAL POWER SYSTEM||WO||06.02.2003|
||PCT/US2001/023280||HALLIBURTON ENERGY SERVICES, INC.||SCHULTZ, Roger, L.|
A downhole electrical power system comprising an electrical power-consuming well tool (14) interconnected in a tubular string, and a power source (12), providing the well tool (14) with electrical power, the power source (12) including at least one voltaic cell (32, 34) having an anode (36) and a cathode (38), each of the anode and the cathode being exposed to an electrolyte (40).
WO/2003/009501 EXCITER SYSTEM AND METHOD FOR COMMUNICATIONS WITHIN AN ENCLOSED SPACE||WO||30.01.2003|
||PCT/US2001/022940||DESKIN RESEARCH GROUP, INC.||CHADWICK, George, G.|
An exciter system (10) is provided for use in facilitating electromagnetic communication within an enclosed space (12). The system (10) includes an exciter (26) which may be in the form of a three dimensional hemispherical exciter (28) or a two dimensional planar sector exciter (30) depending on the size of the associated structure and the power requirements of operation. The exciter system (10) operates in conjunction with a hub/controller network (44). The exciter system (10) is adapted to induce a quasi-static evanescent field (20) within the space and to thereby enable communications using the evanescent field (20) at frequencies within an operational frequency range determined by the characteristics of the space. The exciter (26) is mounted in opposition to a portion of a conductive framework (18) within the enclosed space, and is separated therefrom. In operation, a coaxial connector (48) connects the exciter (26) to the hub/controller network (44) with the center conductor (50) connecting at a feed point (66) to the exciter (26) while the shield conductor (52) is connected to the opposing conductive framework (18). In some embodiments a post (40) acts as a curtain to enhance performance at lower frequencies.