361 |
Flexible amorphous semiconductor solar cell |
JP4455484 |
1984-03-07 |
JPH0652795B2 |
1994-07-06 |
俊雄 三宿; 光明 加藤; ゆき子 藤巻; 英世 飯田 |
|
362 |
Natural stone tone enamel product and a method of manufacturing the same |
JP31250188 |
1988-12-09 |
JPH0633470B2 |
1994-05-02 |
OOTA MAKOTO |
|
363 |
Production of enamelled workpiece |
JP4606693 |
1993-02-12 |
JPH0665761A |
1994-03-08 |
HERUMAN GURUBAA; EBERUHARUTO ARUNINGU; HANSU HOFUMAN; ARAN BIKESUNERU; PAURU TSUIBERU; DEIITAA MARUGOTSUTE; KIISU FUOSUTAA |
PURPOSE: To form a metal sheet capable of being enamel coated without requiring pretreatment of the metal and generating any defects.
CONSTITUTION: The metal sheet enamelled with two layers is produced by coating the sheet with a polymer suspension before forming. Successively, the metal sheet is dried, formed and coated with an enamel frit. The sheet is fired at a temp. of 560-850°C. The binder in the polymer suspension is preferably a material which burns completely at melting and stoving temp.
COPYRIGHT: (C)1994,JPO |
364 |
Production of composite glass powder |
JP31426492 |
1992-10-30 |
JPH05301739A |
1993-11-16 |
HARUTOMUUTO PASHIYUKE; HERUMAN DEITSUTSU |
PURPOSE: To produce a composite glass powder of any particle size from a fine particulate multicomponent mixture composed of a low-melting glass powder, fillers and additives without damaging satisfactory physical characteristics and electric characteristics.
CONSTITUTION: The fine particulate multicomponent mixture is sintered for 10 to 60 minutes at such a temperature that the base glass has a viscosity of 10 to 10
6.5 dPas, and the resultant sintered cake is ground to a powder of the desired particle size. When the multicomponent mixture contains components decomposable with the release of gas, these components are decomposed prior to sintering at a temperature below the sintering temperature. The method for producing the composite glass powder containing copper oxide is especially suitable for coating varistors.
COPYRIGHT: (C)1993,JPO |
365 |
Method for repairing glass lining |
JP8214192 |
1992-04-03 |
JPH05279871A |
1993-10-26 |
Yoshihiro Iizawa; Toshiyuki Kasashima; 敏之 笠島; 吉弘 飯沢 |
PURPOSE: To remarkably improve the thermal impact resistance in the repaired part by forming grooves on the surface after subjected to local repairing of glass lining.
CONSTITUTION: The broken part of the glass layer of a glass lining apparatus is repaired by an irregular repairing agent obtd. by incorporating 50wt.% alumina powder into epoxy resin. After the repairing agent is hardened, onto the surface, grid-shaped grooves having 1 to 5mm width and about 1mm depth are formed at 5 to 20mm pitch by a handing grinder. In this way, by an easy means of simply providing the repaired part with grooves, the thermal impact resistance in the repaired part can remarkably be improved.
COPYRIGHT: (C)1993,JPO&Japio |
366 |
JPH05505382A - |
JP50260391 |
1990-12-13 |
JPH05505382A |
1993-08-12 |
|
|
367 |
JPH04135956U - |
JP2051392 |
1992-03-04 |
JPH04135956U |
1992-12-17 |
|
|
368 |
JPH0466819B2 - |
JP4535084 |
1984-03-09 |
JPH0466819B2 |
1992-10-26 |
SHII JEFURII BURINKAA; SUKOTSUTO TEI RIIDO |
|
369 |
JPH0443858B2 - |
JP32949088 |
1988-12-28 |
JPH0443858B2 |
1992-07-17 |
ANRI PIERA |
|
370 |
JPH043226B2 - |
JP24759286 |
1986-10-20 |
JPH043226B2 |
1992-01-22 |
|
A biocompatible composite material comprising a substrate having a glass-hydroxyapatite ceramic layer disposed thereon, and optionally having an intermediate glass layer between the substrate and the layer. The glass-hydroxyapatite ceramic layer comprises a continous glass phase having a hydroxyapatite ceramic dispersed therein, said hydroxyapatite ceramic having a calcium/phosphorous molar ratio of 1.50 to 1.75, wherein said hydroxyapatite ceramic is comprised mainly of hydroxyapatite. The surface portion of the layer is in a roughened state having voids and having the hydroxyapatite ceramic exposed. The composite material may be produced by a method comprising applying a blend of a powdery glass with a hydroxyapatite ceramic to the surface of a substrate with or without a glass layer disposed thereon, firing the resulting coated substrate and subjecting the fired coated substrate to an etching action with an acid. The composite material is useful as a bone substitute material for the reconstruction of bone defects. |
371 |
Metal-glass composite pipe, and its manufacture |
JP27549990 |
1990-10-16 |
JPH03295829A |
1991-12-26 |
SHIYAO UEN GUU; WAN RI KUAN |
PURPOSE: To provide a metal-inorganic material, in particular, metal-glass composite pipe in which the surface of a metallic pipe is spray-coated, and which is provided with a lower layer and an upper layer of the respective prescribed compositions, and can be substituted for a metal-organic material composite pipe by the conventional technology.
CONSTITUTION: The metal-glass composite pipe provided with a spray-coating layer comprising a lower layer of 0.05-2.00 mm in thickness and having the composition indicated in formula I, and an upper layer of 0.05-3.00 mm in thickness having the composition indicated in formula II, is provided. The total thickness of the lower layer and the upper layer is sufficiently 0.1-5.00 mm. The composite pipe is combined with the metal which is excellent in strength and low in corrosion resistance, and the glass excellent in corrosion resistance, and demonstrates the remarkably excellent characteristics both from the strength aspect and from the corrosion resistance aspect.
COPYRIGHT: (C)1991,JPO |
372 |
Calcium phosphate coated titanium material |
JP31390989 |
1989-12-02 |
JPH03174322A |
1991-07-29 |
TORIYAMA MOTOHIRO; KAWAMURA MOTOZO; KAWAMOTO YUKARI; YOKOGAWA YOSHIYUKI; SUZUKI TAKAHIRO |
PURPOSE: To provide a material having high durability in a living body with a simple apparatus with high productivity by adding a specified amt. of Na
2O to a powdery mixture giving a specified ratio of CaO: TiO
2:P
2O
5, melting them at a specified temp., vitrifying and crushing the melt and coating Ti or Ti alloy with the resulting powder.
CONSTITUTION: Calcium carbonate is mixed with titanium oxide and phosphoric acid so as to give 9:5:6 molar ratio of CaO:TiO
2:P
2O
5 and 1-5mol% Na
2O is added to the mixture. They are melted at ≥1,200°C, vitrified and pulverized. An aq. slurry contg. the resulting powdery starting material for coating is prepd., the surface of Ti or Ti alloy is coated with the slurry by spraying or dipping and heat treatment is carried out at 650-1,300°C. A calcium phosphate coated titanium material with a tightly adhered coating layer is obtd.
COPYRIGHT: (C)1991,JPO&Japio |
373 |
Production of material having structured coating |
JP27190189 |
1989-10-20 |
JPH02187176A |
1990-07-23 |
HERUMUUTO SHIYUMITSUTO; KAARUHAINTSU HAASU; FURANTSU YOSEFU HERUTO |
PURPOSE: To form a film which may be transformed to glass or the like by applying a coating material obtd. by polycondensation of a specific silicon compd. on a substrate, then irradiating the prescribed coated area with heat energy or the like after drying, then removing the coating material of the uncured portion.
CONSTITUTION: The coating material is prepd. by polycondensating the silicon compd. of which 25 to 100 mol.% (based on a monomer compd.) of the entire part is expressed by formula I (R' denotes a group which is stable to hydrolysis and is polymerizable by heat and irradiation and R
2 denotes an OH group or easily hydrolyzable group). The parts obtd. by applying such coating material on the substrate are predried and thermal and/or radiation energy is then applied only to the predetermined area of the coating material to cure the coating material. The uncured coating material portion is then removed, by which the material having the structured coating transformable to glass or ceramics is produced.
COPYRIGHT: (C)1990,JPO |
374 |
Natural stone-like enamel product and production thereof |
JP31250188 |
1988-12-09 |
JPH02159388A |
1990-06-19 |
OTA MAKOTO |
PURPOSE: To produce the natural stone-like enamel product of excellent appearance having a deep feel by providing dotty transparent enamel layers on the basic enamel layer on a metallic base plate and interspersing the bottom with the further smaller dotty enamel layer from the surface thereof.
CONSTITUTION: Granular transparent frits B
2 contg. 40 to 80wt.% PbO are scattered in a suitable amt. onto one ground coat enamel layer 2 of a test piece 3 formed by providing the black ground coat enamel layers 2 on both surfaces of the metallic base plate 1 consisting of a steel sheet, stainless steel sheet, etc. The ordinary frits A, E which are smaller in grain size than the above-mentioned frits are then sprayed from the surface to the bottom of the transparent frits B
2 and thereafter, the enamel layers are calcined. The frits B
2 melt and spread circumferentially while settling in the ground coat enamel layers 2 to form large molten pools 5. The greater parts of the frits A, E are taken as 6, 7 into these molten pools 5. V
2O
5 or MoO
3 is added at 0.3 to 2wt.% to 100 pts.wt. transparent frits B
2 and ≥1 kinds of the pointilistic frits having small flowability at the time of calcining are applied, then the calcining is executed.
COPYRIGHT: (C)1990,JPO&Japio |
375 |
JPS641551B2 - |
JP11475782 |
1982-06-30 |
JPS641551B2 |
1989-01-11 |
DEYUANNU RUISU RATSUKURU; KONRATSUDO MAACHIN BANASU; FURANSHISU SARUATOA GYARATSUSO |
|
376 |
JPS6346148B2 - |
JP4095785 |
1985-03-01 |
JPS6346148B2 |
1988-09-13 |
SHIHATSUTARU SHIN KUCHERIA |
|
377 |
Living body compatible composite and its production |
JP24759286 |
1986-10-20 |
JPS63102762A |
1988-05-07 |
MARUNO SHIGEO; BAN SEIJI; IWATA HISASHI; ITO HARUO |
A biocompatible composite material comprising a substrate having a glass-hydroxyapatite ceramic layer disposed thereon, and optionally having an intermediate glass layer between the substrate and the layer. The glass-hydroxyapatite ceramic layer comprises a continous glass phase having a hydroxyapatite ceramic dispersed therein, said hydroxyapatite ceramic having a calcium/phosphorous molar ratio of 1.50 to 1.75, wherein said hydroxyapatite ceramic is comprised mainly of hydroxyapatite. The surface portion of the layer is in a roughened state having voids and having the hydroxyapatite ceramic exposed. The composite material may be produced by a method comprising applying a blend of a powdery glass with a hydroxyapatite ceramic to the surface of a substrate with or without a glass layer disposed thereon, firing the resulting coated substrate and subjecting the fired coated substrate to an etching action with an acid. The composite material is useful as a bone substitute material for the reconstruction of bone defects. |
378 |
JPS6316987B2 - |
JP9049680 |
1980-07-02 |
JPS6316987B2 |
1988-04-12 |
FUERUDEINANTO HARUTOMAN |
|
379 |
JPS633022B2 - |
JP81084 |
1984-01-09 |
JPS633022B2 |
1988-01-21 |
TANAKA OSAMU; NAKAJIMA SHOZABURO; NAGANO TAKASHI; KUMANO TOMOJI; HIROMAE YOSHITAKA |
|
380 |
JPS6230157B2 - |
JP15527080 |
1980-11-06 |
JPS6230157B2 |
1987-06-30 |
GYUNTAA TAISEN; ARUFUREETO ETSUPIHI; RUUDORUFU HAINTSU HOOHORAITONAA |
|