221 |
Water-dilutable stone impact protection paint and compensation paint, their use and methods for their preparation |
JP50146896 |
1995-06-19 |
JPH09503548A |
1997-04-08 |
ヒレ,ハンス−ディーター |
(57)【要約】 本発明は特に自動車産業における、水稀釈性ストーン衝撃保護の及び補償ペイントの製造及びその用途及びそれらの製造方法に関する。 水稀釈性ストーン衝撃保護ペイントは20〜60重量%のバインダー及び2〜10重量%の顔料及び水溶性ベースペイントの非凝固オーバースプレーを含有し、補償ペイントは40〜80重量%のバインダーを含有する。 |
222 |
A method and apparatus for processing the waste paint sludge |
JP14094189 |
1989-06-02 |
JPH07102359B2 |
1995-11-08 |
スレーター アンドリュウ; シー.ジョンソン ジェフリー |
The method comprises the steps of: removing a portion of the water and liquid hydrocarbons from the sludge thereby producing a high solids paint sludge; transporting the high solids paint sludge (22) to an enclosed and substantially sealed heat exchanger (30) in which is maintained an inert atmosphere; mixing a scouring aggregate with the high solids paint sludge (22) and thereafter heating the mixture in the heat exchanger (30) to volatilise the remaining water and liquid hydrocarbons and to cure all of the uncured resin, thereby generating a gas stream and a substantially dried particulate solids stream including said scouring aggregate; and transferring the gases from the heat exchanger to a processing zone and removing substantially all hydrocarbons from the gases thereby generating a hydrocarbon-free effluent. |
223 |
Process for the recovery of polyurethane from solvent-containing waste paste resulting from the production of polyurethanes |
JP10436592 |
1992-04-23 |
JPH0737509B2 |
1995-04-26 |
イエルヒ・ハウスドルフ; シュテフェン・コザック; バルド・アンゼルム |
|
224 |
Method for reusing separation liquid of collected paint |
JP11280093 |
1993-05-14 |
JPH06320103A |
1994-11-22 |
UENOYAMA KAZUO; SHIBATA TAKAYUKI; KOIKE TOSHIYA; OKAI TOSHIHIRO; KAJINO TETSUO |
PURPOSE:To reutilize separation liquid obtained from paint diluting water as washing water without deteriorating the efficiency for concentrating the paint diluting water. CONSTITUTION:Paint diluting water 2 is obtained by collecting water paint in washing water 1 and collected. Paint diluting water 2 is separated into paint and water. Thereby paint is recovered and also separation liquid 3 is reused as washing water 1. In the system, acid value of washing water 1 prepared by reusing separation liquid 3 is regulated to <=10 and pH thereof is regulated to 7.0-9.0. It is prevented by controlling the quantity of a low molecular acid component in separation liquid through acid value and pH that viscosity of concentrated paint is abnormally increased in the case of filtering and concentrating paint diluting water 2 obtained by collecting paint in washing water 1. |
225 |
Process for reusing overspray obtained from spraying coating composition |
JP5441494 |
1994-03-01 |
JPH06254452A |
1994-09-13 |
BUIIRANTO HOFUESHIYUTATSUTO; YOTSUHEN BURIYUTSUKU; HARARUDO BURUMU |
PURPOSE: To enable reusing overspray by collecting it, diluting it with water, and adjusting the spray viscosity, after reacting it with compounds which are more reactive with isocyanate groups in the presence of emulsifiers, by modifying into storage stable coating compounds suitable for reusing by modifying into chemically and/or physically drying coating compositions.
CONSTITUTION: Overspray is collected and diluted with water. It is reacted simultaneously or after that, in the presence of an optional emulsifiers, with compounds which are more reactive with isocyanate groups than both of water and compounds containing isocyanate reactive groups, for example methyl amine. After this reaction, spray viscosity is adjusted by controlling water, and an optional additives are added. The resulting aqueous solution generated from this modified overspray is reused for the chemical and/or physical drying coating compounds of one or double components system.
COPYRIGHT: (C)1994,JPO |
226 |
Process for recovery of polyurethane from solvent-containing waste paste generated from production of polyurethane |
JP10436592 |
1992-04-23 |
JPH05170868A |
1993-07-09 |
IERUHI HAUSUDORUFU; BARUDO ANZERUMU; SHIYUTEFUEN KOZATSUKU |
PURPOSE: To perfectly recover polyurethane and a solvent in a reutilizable form.
CONSTITUTION: In a process for recovering polyurethane from solvent-containing waste paste generated from a polyurethane manufacturing process, the waste paste is adjusted to a dry wt. of about 30% with respect to the waste paste by using methyl ethyl ketone as a solvent and an acylpolyethyleneglycolester emulsifier is added to the paste in a ratio of 1 pt. per 10 pts of the paste and twelve times the waste paste wt. of water is mixed with the paste under stirring and the obtained emulsion is stirred for one hr at room temp. and the solvent is excluded from this emulsion by utilizing steam and an aq. phase is removed from the obtained water-solvent two-phase distillate and a fine polyurethane granular material with a particle size of 200-2000 μm left in foam residue and suspended in water is filtered off to be dried.
COPYRIGHT: (C)1993,JPO |
227 |
Mist eliminator in paint spray booth |
JP3164590 |
1990-02-14 |
JPH02261560A |
1990-10-24 |
EDOUIN SHII ZUERUNAA JIYUNIA; JIYON EE BETSUKUMAN |
PURPOSE: To cost-effectively recover an emulsion by circulating an org. liquid having a specific. b.p., an org. liquid of an oil-in-water emulsifier and an oil-in- water emulsion within a paint spray booth apparatus.
CONSTITUTION: At least 10 wt.% of the total amt. of accumulated oil droops, water drops, paint particulates and solids and hydrocarbon effluents is collected and more than this amt. is returned to an oil-in-water emulsion circulating in the spray booth apparatus. Further, the oil-in-water emulsion contg. 1 to 50 wt.% org. liquid having the b.p. of 150°C, 0.1 to 30 wt.% org. liquid of an oil-in-water emulsifier and the oil-in-water emulsion is circulated in the spray booth apparatus. Further, paint sludge is separated from the liquid phase and aq. phase and oil, emulsifier and water are added thereto to regenerate the oil-in-water emulsion. As a result, clogging is prevented.
COPYRIGHT: (C)1990,JPO |
228 |
JPS6150027B2 - |
JP10911778 |
1978-09-07 |
JPS6150027B2 |
1986-11-01 |
MIKI KATSUO; ABE KAZUTOSHI |
|
229 |
Polyisocyanurate foam, manufacture and laminate material thereof |
JP7606983 |
1983-04-28 |
JPS58201818A |
1983-11-24 |
SUKOTSUTO SHII SUNAIDAA; ARUBERUTO DEREON |
|
230 |
Water-dispersible coating composition |
JP7460679 |
1979-06-15 |
JPS56857A |
1981-01-07 |
TAGUCHI MICHIICHI; FUNABIKI KUNIO; NAKASHIMA MASAO; NUNOKAWA HISAO; IKEMI ITARU; KIMURA MASATAKA; SHIBATA NAOKI |
PURPOSE: A water-dispersible coating whose dispersibility is improved without adding a dispersant and without detriment to the ability of forming water-resistant coated films, prepared by dispersing a powder coating having a specific particle diameter in a solution of a carboxyl group-containing, water-soluble resin.
CONSTITUTION: A powder coating, average particle diameter of 1W100μ, is dispersed uniformly in a solution of a carboxyl group-containing, water-soluble resin. The mixing weight ratio of the powder coating (A) to the water-soluble resin (B) is 0.1W100. Examples of the powder coating include thermosetting acrylic resins, thermosetting epoxy resins and thermosetting polyester resins. Examples of the water-soluble resin include polybutadiene resins, alkyd resins, maleinized oil resins, epoxy resins anc acrylic resins. When said powder coating consists of more than one powder coating, as in the case of waste powder coatings, unevenness in color or a difference in color tone sometimes happens. But black coated films having a consatnt color tone are always obtained by the addition of a proper amount of carbon black.
COPYRIGHT: (C)1981,JPO&Japio |
231 |
Method of utilizing industrial painting sludge |
JP4613580 |
1980-04-08 |
JPS55142636A |
1980-11-07 |
ANDOREA PEDEITSUTO |
|
232 |
Recovering resin from excessive coating powder for reutilization |
JP10911778 |
1978-09-07 |
JPS5535929A |
1980-03-13 |
MIKI KATSUO; ABE KAZUTOSHI |
PURPOSE: To recover and reutilize resin components from coating material, surplus coating powder is dissolved in an organic solvent whose solubility for curing agent of the coating powder is less than 1g (curing agent)/100g (solvent) at 20°C, and then treated for separation.
CONSTITUTION: Excessively oversprayed acrylic coating powder (main components: acrylic resin, 1,10-decane dicarboxylic acid curing agent, titanium oxide, etc.) in amount of 25 parts is added with 100 parts of a triol solvent (solubility for 1,10- decan dicarboxylic acid being 0.005g/100g) and agitated for dissolution. The formed dispersion or solution is filtered through a 200-mesh metal screen followed by kieselguhr to remove undissolved residue. From the resulting clear solution, solvent is removed to provide solid resin. The resin can be effectively reutilized as powdered coating material.
COPYRIGHT: (C)1980,JPO&Japio |
233 |
JPS5036664B2 - |
JP6313871 |
1971-08-18 |
JPS5036664B2 |
1975-11-26 |
|
1394852 Decomposing polymers into liquids and gases NIIGATA TEKKOSHO KK 5 May 1972 [18 Aug 1971] 46774/74 Divided out of 1394851 Heading C5E Apparatus for decomposing high polymers into liquid and gaseous fuels comprises an extruder 11 having a rotatable screw shaft 13 and a nozzle 30, a heated tank 36 connected to the end of the nozzle 30, a rotary pump 38 for reducing the pressure in the tank 36, and a sink and float tank 40 for storing gaseous and liquid fuel produced by decomposition of the polymer. The fuel produced is in part passed to a combustion apparatus 44 and in part passed to a burner 47 which is coupled to a gas- or steamturbine 48 connected to an electrical generator 49. The polymer is progressively heated to 160-400‹ C. by the heater 14a, to 400-600‹ C. by the heater 14b and to 600-1000‹ C. by the heater 14c. The tank 36 is heated by exhaust gas from the burner 47 which passes through the pipe 37. |
234 |
JPS50117742A - |
JP2337275 |
1975-02-25 |
JPS50117742A |
1975-09-16 |
|
|
235 |
JPS5075695A - |
JP10586674 |
1974-09-12 |
JPS5075695A |
1975-06-20 |
|
|
236 |
JPS4953693A - |
JP8691373 |
1973-08-03 |
JPS4953693A |
1974-05-24 |
|
|
237 |
JPS4828581A - |
JP6314071 |
1971-08-18 |
JPS4828581A |
1973-04-16 |
|
|
238 |
HYDROXY-PHENOXYETHER POLYMER/FIBER COMPOSITES AND FOAMS |
PCT/US0034749 |
2000-12-20 |
WO0146303A3 |
2002-05-10 |
LEE ROBERT A; HUTCHINSON GERALD A; NAZIR BASHARAT A; KLASS CHARLES P |
Composites and foamed composites comprised of fiber and hydroxy-phenoxyether polymer are effective to provide articles having increased strength, enhanced moisture resistance, gas barrier properties, adhesion, and structural strength. Methods for preparing the composites and foams are disclosed. Materials and articles formed by such methods have utility in several fields and applications, including the packaging industry. |
239 |
LAMINATES AND COATED MATERIALS COMPRISING HYDROXY-PHENOXYETHER POLYMERS |
PCT/US0034747 |
2000-12-20 |
WO0145941A3 |
2002-01-03 |
LEE ROBERT A; HUTCHINSON GERALD A; NAZIR BASHARAT A; KLASS CHARLES P |
Disclosed are laminates and coated materials, such as coated paper, and methods for making same utilizing hydroxy-phenoxyether polymers. In preferred embodiments, the laminates and coated materials of this invention are recyclable and/or are made, at least in part, from recycled materials. |
240 |
Binder composition useful for producing non-woven fabrics and process for producing moulded parts made of non-woven fabrics |
PCT/EP9504542 |
1995-11-18 |
WO9616218A3 |
1996-07-18 |
THYSSEN STAN; SCMITT WALTER; HILMES DIETER |
A process and binder are disclosed for producing non-woven fabrics and moulded parts made of non-woven fabrics, in particular in moulding tools in which the non-woven fabrics are chemically bound with binding powders that entirely or partially consist of coating powders, in particular coating powders made of recycled materials. |