241 |
Method and apparatus for spraying the raw material |
JP2000574469 |
1999-10-05 |
JP2002526373A |
2002-08-20 |
エーロラ,マルクス; ティッカネン,ユハ; ピトカネン,ヴィッレ; ラヤラ,マルック |
(57)【要約】 本発明は、原料を噴霧する方法および装置に関し、該方法および装置においては、少なくとも2つの異なる成分が、燃料ガスによって形成される火炎(9)に導入され、該成分が相互に反応し、多成分ガラス粒子を形成する。 火炎(9)によって、多成分ガラス粒子は所望のターゲットに噴霧される。 第1成分は火炎にガスまたは蒸気として導入され、第2成分は火炎に液体状態で導入されて実質的に火炎近傍のガスによって噴霧化される。 第1成分および第2成分は火炎(9)に燃料ガスと同一の装置で供給される。 液体成分およびガス成分はナノメートルのオーダを有する粒子に形成され、相互の反応は均質な多成分ガラス粒子が形成されるように行われる。 |
242 |
Method for applying glass lining |
JP2000358944 |
2000-11-27 |
JP2002167680A |
2002-06-11 |
IIZAWA YOSHIHIRO; SHIRASAKI MASAHIRO; ONO JUNJI |
PROBLEM TO BE SOLVED: To provide a new method for applying glass lining by which a stable and uniform glass lining layer can be applied to large stainless steel glass lined apparatuses. SOLUTION: The surface of a stainless steel base material is subjected to thermal spray treatment by a thermal spraying material selected from the groups consisting of a stainless steel material same as the base material, Ni metals, Cr metals, Fe metals, Co metals, Ni-Cr alloys and Fe-Cr alloys to form a thermally treated layer. Next, a glass lining layer is formed on the thermally sprayed layer by heat treatment for the glass lining by a ground coat and a cover coat. In this method for applying the glass lining, the surface roughness Rz of the thermally treated layer lies in the range of 5 to 100 μm, and also, the open pore diameter lies in the range of 3 to 60 μm. |
243 |
Method for producing metal powder |
JP27292496 |
1996-09-25 |
JP3277823B2 |
2002-04-22 |
峰人 岩崎; 和郎 永島; 榮一 浅田; 裕二 秋本 |
|
244 |
Coating systems |
JP6973892 |
1992-02-19 |
JP3192200B2 |
2001-07-23 |
ヘヒラー ヴォルフガンク; オースターリート カール; ヴァイガント マンフレド; ディーツ ヨハン |
|
245 |
Nickel powder and a method of manufacturing the same |
JP14994997 |
1997-05-26 |
JP3137035B2 |
2001-02-19 |
和郎 永島; 榮一 浅田; 裕二 秋本 |
|
246 |
Metal - glass composite pipe and its manufacturing method |
JP27549990 |
1990-10-16 |
JP3083149B2 |
2000-09-04 |
ウェン グー シャオ; リ クァン ワン |
|
247 |
Method for producing a magnetic steel sheet having a glass film |
JP52437895 |
1995-03-18 |
JPH09510503A |
1997-10-21 |
ゲーネン、クラウス; シュラパース、ハイナー; ドレ、トーマス; ハンマー、ブリギッテ; ベリング、フリッツ |
(57)【要約】 この発明は、一様に良好に密着したガラス皮膜を有しかつ磁気特性が改良された電磁鋼板、特に一方向性電磁鋼板を製造するに際し、熱間圧延鋼帯を一旦製造し、必要により焼鈍し、少なくとも1回の冷間圧延段階により冷間鋼帯の最終厚さまで冷間圧延し、しかる後に、この厚さまで圧延された鋼帯に酸化マグネシウム(MgO)含水分散物を必須成分としかつ少なくとも1種の添加物が添加された焼鈍分離剤を塗布し、乾燥し、かくして塗布された鋼帯に高温焼鈍を施す方法に関する。 この発明の特徴は、微細に分散された酸素系アルミニウム化合物を少なくとも1種と添加剤として使用することにある。 |
248 |
Continuous casting steel strip |
JP51348995 |
1994-11-10 |
JPH09504830A |
1997-05-13 |
アセフポア−デズフリー、マソード; ジョージ ゴア、レスリー |
(57)【要約】 連続ストリップ鋳造機(40)で製造される鋼ストリップ(20)が鋳造機から出てきたままで且つ鋳造機と同じラインにある間に、高温ストリップに、施工対象のストリップの温度で流動性を有する材料の酸化保護被覆を施し、その後に被覆をクーラ(204)で冷却して凝固・破砕を起こさせる、という処理をする。 被覆されたストリップは、被覆除去前にロール(203)で熱間圧延してもよい。 |
249 |
Transferring paper |
JP33122793 |
1993-12-27 |
JPH07186597A |
1995-07-25 |
YOSHIMURA YASUYUKI |
PURPOSE:To perform a multi-color transfer with a simple process at an ordinary temperature by employing a transferring paper having a pattern printing layer, a ultraviolet curing adhesive layer and a mold releasing material layer successively provided on a base material with a mold releasing property. CONSTITUTION:A base material 1 is coated with a mold releasing agent composite through a screen printing process, after which a solvent is allowed to evaporate so as to form a mold releasing agent layer 3. Then, backing printing is conducted with a plurality of patterns on the mold releasing agent layer 3 through a screen printing process or the like, followed by effecting a heat-drying process thereto in order to allow a resin component to be hardened and form a pattern-printed layers 5, 7. Further, the pattern printed layer 7 is coated with an ultraviolet hardening adhesive agent component through a screen printing process and the solvent is volatilized and, after that, a mold releasing paper 11 is stuck thereon for forming a ultraviolet hardening adhesive layer 9. In this way, since the ultraviolet hardening adhesive layer 9 is hardened at an ordinary temperature in a short period, mechanization can be done in the step of the pattern formation to a transferred body. |
250 |
Manufacture of biological compatibility complex |
JP21411291 |
1991-08-01 |
JPH067425A |
1994-01-18 |
MARUNO SHIGEO; BAN SEIJI; IWATA HISASHI; ITO HARUO |
PURPOSE:To manufacture a complex having numerous holes and exposed with apatite by coating a dispersed mixture of the apatite powder mainly made of glass powder and calcium phosphate on an intermediate glass layer formed on a metal, baking it, then dissolving and etching the glass on the surface. CONSTITUTION:An intermediate glass layer is formed on a metal by coating, the apatite powder mainly made of glass powder and calcium phosphate is mixed and dispersed, this dispersed mixture is coated on the intermediate glass layer and baked, then the glass on the surface is dissolved and etched by acid to manufacture a complex having numerous holes and exposed with apatite mainly made of calcium phosphate. This complex has no brittleness because a metal base has strength, and it is made a stiff complex. Apatite is firmly held by the glass layer, the surface layer has numerous holes, apatite is exposed, and the complex is easily jointed to a biological bone. |
251 |
Coating system |
JP6973892 |
1992-02-19 |
JPH05125559A |
1993-05-21 |
BUORUFUGANKU HEHIRAA; YOHAN DEIITSU; MANFUREDO BUAIGANTO; KAARU OOSUTAARIITO |
PURPOSE: To provide a method for producing coating by which coating having extreme stability from the chemical and mechanical viewpoints, having a color with mirror-like properties, if required, having a color changing into a pearl gloss and/or the color of the body and having extremely aesthetic charm is produced on a substrate subjected to glaze or enamel finishing.
CONSTITUTION: This coating can be obtd. by applying a water base oxide sol once or repeatedly, successively drying metallic oxide coating per applying process and executing ignition as necessary. The metallic oxide sol has 5 to 200 nm average grain size, the igniting process is executed at least once after the completion of the final applying process at a temp. higher than 700°C and also lower than the m.p. of the substrate, the metallic oxide coating on the glaze or enamel coating after ignition has a refractive index higher than that of the enamel or glaze coating at least by 0.5, and the total coating thickness of the ignited metallic oxide coating is thinner than 500 nm.
COPYRIGHT: (C)1993,JPO |
252 |
Method for enamelling glass substrate and enamelling composition for the same |
JP1119492 |
1992-01-24 |
JPH04338130A |
1992-11-25 |
JIERAARU DODOU; KATEI DEIEBAARU; MARII ROOGEZE |
PURPOSE: To provide the method for forming a skin of enamel on a glass substrate faster with economical energy.
CONSTITUTION: In this invention, at least one portion of the drying operation for the enamel skin formed on the glass substrate is effected by microwaves and the enamel layer advantageously contains a microwave dopant.
COPYRIGHT: (C)1992,JPO |
253 |
Protection of titanium aluminide surface and glass ceramic coating of this surface |
JP21886290 |
1990-08-20 |
JPH03170682A |
1991-07-24 |
RONARUDO RUISU ANDORASU; JIYON FUREIZAA MAKUDAUERU |
PURPOSE: To easily apply a reliable oxygen barrier coating on a titanium aluminize surface by applying the continuous glassy coating of alkaline earth silicate glass mainly composed of BaO, SrO, CaO, etc., on this surface and heating the glass surface, thereby crystallizing the coating.
CONSTITUTION: A compsn. consisting of by weight % based on oxide, up to about 50% BaO, up to 55% SrO, up to 35% CaO, about 20 to 75%, in total, oxide selected from these, 25 to 60% SiO, 0 to 25% arbitrary components, 0 to 20% MnO and 0 to 30%, in total of other bivalent and trivalent metal oxide is prepd. This compsn. is applied on the titanium aluminide surface, by which the continuous glassy coating of the alkaline earth silicate glass is formed on the substrate. This coating is crystallized by heating and firing. As a result, the coating of the tightly adhesive and dense crystalline glass ceramic having the resistance to oxygen at a temp. up to about 1000°C in an oxygen-contg. environment is formed.
COPYRIGHT: (C)1991,JPO |
254 |
JPH0315722B2 - |
JP11380582 |
1982-06-29 |
JPH0315722B2 |
1991-03-01 |
SAMYUERU DOOSON |
|
255 |
Enamel sole for iron |
JP163690 |
1990-01-10 |
JPH02264699A |
1990-10-29 |
BURUUNO MOORAN; ANRI PIERA |
PURPOSE: To enable reducing the coefficient of friction and also to prevent the whole front surface of a sole from being sensitive to dyeing by permitting the front surface to include embossing enamel strips which are substantially parallel and also extend in the longitudinal direction of the sole.
CONSTITUTION: The front surface includes the embossing enamel strips 4 which are substantially parallel and extend in the longitudinal direction of the sole. The edges of the strips 4 are made to be round and the strips 4 are adapted to an enamel layer 3. Besides, the strips 4 are manufactured by sintering the composition of enamel particles. Moreover, the composition of the enamel particles which can be made into glass are sprayed on the enamel layer 3 and the layer 3 is enamelled simultaneously with the strips 4. As a result, the contact front surface area of the sole with a cloth to be ironed is reduced and the coefficient of friction can be reduced. Moreover, the excellent adhesion property of the enamel strips is obtained and, then, the whole front surface of the sole is made not to be sensitive to dyeing.
COPYRIGHT: (C)1990,JPO |
256 |
JPH022953B2 - |
JP19750084 |
1984-09-20 |
JPH022953B2 |
1990-01-19 |
SATA NOBUHIRO; ODAWARA OSAMU; ASANO OSAMU; SHIRAISHI MASAO |
|
257 |
Production of glass ceramic board |
JP4623088 |
1988-02-29 |
JPH01219040A |
1989-09-01 |
IKEDA MASAKI; NISHINO ATSUSHI; MIZUNO YASUO; HIRAGA MASAHIRO |
PURPOSE: To control the action of the CO
2 and H
2 generated in an enamel layer and to obtain the title glass ceramic board for a printed circuit by forming a metal plating layer on a low-carbon ferritic stainless steel board, removing the cathode to form a crystallized glass layer, and calcining the layer.
CONSTITUTION: A metal plating layer of Ni, Co, Cr, etc., is formed on a ferritic stainless steel board (contg. <0.03% C), and negatively polarized. A slurry of fine crystallized glass powder is then electrodeposited by electrophoresis to form a crystallized glass layer, and the layer is calcined to form a glass ceramic board. A crystallized glass layer can be formed by this method on ferritic stainless steel, which was impossible by the conventional method. In addition, the board can be used for the articles requiring wear resistance such as a motor bearing, a mechanical seal, etc., as well as for the circuit board.
COPYRIGHT: (C)1989,JPO&Japio |
258 |
Production of covered steel sheet for enamel |
JP23465287 |
1987-09-18 |
JPS6479037A |
1989-03-24 |
TAKECHI HIROSHI; WADA TADAYOSHI; YABE KATSUHIKO |
PURPOSE:To produce the title steel sheet having excellent resistance to corrosion, heat, wear, and chemicals by applying a specified glaze on the surface of a steel sheet, and drying the glaze. CONSTITUTION:From 3-10 parts (solid component) of the material contg. 40-80% acrylic ester, 5-38% methacrylic ester, 1-5% org. acid-based polymer, and 0.05-0.3% surfactant or 20-40% epoxy resin and 30-50 parts of water are admixed to 100 parts of a frit for lower glazing having >=200 mesh grain size to obtain a glaze. A steel sheet is degreased, pickled, then dipped in an Ni soln., and neutralized, and the glaze is applied on the surface of the steel sheet in about 130mum thickness. The glazed steel sheet is then dried at ordinary temp. to 150 deg.C for 2-60min to obtain a covered steel sheet for enamel. The steel sheet is then formed and calcined at 500-900 deg.C, and an upper glaze is applied, dried, and calcined. |
259 |
JPS648071B2 - |
JP20179081 |
1981-12-15 |
JPS648071B2 |
1989-02-13 |
KUSANAGI YOSHIHIRO; TSUCHIDA JIRO |
|
260 |
JPS6344400B2 - |
JP9949586 |
1986-05-01 |
JPS6344400B2 |
1988-09-05 |
ANRI PIERA; BERUNAARU RUIZON |
|