| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 液体硅橡胶 | CN200710196023.4 | 2007-11-28 | CN101191018A | 2008-06-04 | P·耶尔乔; E·舍费尔 |
| 一种制备可固化的有机聚硅氧烷组合物的方法,该组合物包括(A)具有含脂肪族碳碳多重键的基团的化合物,(B)具有硅键接的氢原子的有机聚硅氧烷,(D)催化剂,所述方法包括首先将100重量份的(A)和(B)或(A)和(D)加到容器中,然后进料至塑料加工机器的混合器中,或将以催化剂配方计为0.3至5重量份的(D)添加至(A)和(B)中,或将0.3至5重量份的(B)添加至(A)和(D)中。 | ||||||
| 2 | 一种带负离子的废旧海绵再加工工艺 | CN201610663861.7 | 2016-08-15 | CN106273074A | 2017-01-04 | 周国尧; 周林众; 陈永发 |
| 本发明公开了一种带负离子的废旧海绵再加工工艺,其包括以下步骤:①将100份废弃海绵进行粗磨、细磨、过滤,达到粒径20目,②加入25-30份聚醚,混合均匀,升温至140℃加热2h后降温至70-80℃,加入25份TDA,进行搅拌30-60min,搅拌速度3000r/min,③加入10-15份负离子粉、13-14份胶黏剂,混合搅拌30min,搅拌速度为3000-4000r/min,④经模具压铸成型,于高温200℃下加热,成型后脱模得到成品海绵。本发明采用废旧海绵为原料,对其进行再加工后制得新海绵,该新海绵可以释放大量负离子,远高于空气中的负离子浓度,该海绵具有杀菌降尘等保健作用,且更加环保安全,且能有效利用废弃海绵,达到资源再利用的目的,而且可以节省成本。 | ||||||
| 3 | Liquid Silicone Rubber | US11946065 | 2007-11-28 | US20080125528A1 | 2008-05-29 | Peter Jerschow; Erich Schaffer |
| Organopolysiloxane moldings are prepared from (A) compounds which have radicals having aliphatic carbon-carbon multiple bonds, (B) organopolysiloxanes having Si-bonded hydrogen atoms, and (D) a hydrosilylation catalyst, by a process involving first preparing an admixture of 100 parts by weight of (A) and (B) or (A) and (D), and then feeding, into the mixer of a plastics-processing machine, either from 0.3 to 5 parts by weight of (D), based on the catalyst formulation, into the mixture of (A) and (B), or from 0.3 to 5 parts by weight of (B) into the mixture of (A) and (D). | ||||||
| 4 | Machine for mixing and plasticating of plastics, rubber and other highly viscous materials at controlled pressure, friction and shear conditions | US3623703D | 1969-12-05 | US3623703A | 1971-11-30 | NIELANDER HENRIK |
| A mixing and plasticating machine which comprises a mixing and plasticating cylinder and a mixing and plasticating rotor with passages, the shaft of said mixing and plasticating rotor being connected to a rotary drive outside the mixing and plasticating cylinder. The mixing and plasticating cylinder and the mixing and plasticating rotor are axially movable in relation to each other. By means of this relative axial motion of rotor and cylinder the inside wall of the mixing and plasticating cylinder is scraped off by the mixing and plasticating rotor and the material in the cylinder is pressed through said passages at friction and shear.
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| 5 | Fiber polymer trim | US15246377 | 2016-08-24 | US10100528B2 | 2018-10-16 | Douglas J. Wambaugh |
| A corner trim material that is made of a material that will bond with current industry mastics such as all purpose joint compounds, resists impact, resists abrasion, and readily accepts common coatings such as drywall mud, texture and paints. The surface of this material generally does not need to be covered by any secondary fiber based material such as paper to improve bonding or coating on the inside or outside. The material generally consists of a polymer mixed with a fibrous material like pulp or glass fiber. A corner trim piece can be directly extruded from the mix. The corner trim piece can have a center hinge, can be bullnose, and the flanges can optionally have holes or optionally be coated with adhesive. | ||||||
| 6 | Impregnated odour control products and methods of making the same | US14034109 | 2013-09-23 | US09974311B2 | 2018-05-22 | Philip P. Chow; Catherine Ciupa |
| A product capable of controlling odors arising from organic matter, and a method of making the product. The product comprises an admixture of a moldable thermoplastic and a benign dormant bacteria in a sporulated form, which admixture is formed by mixing the benign dormant bacteria into the moldable thermoplastic when the moldable thermoplastic is melted, and molding the admixture into a molded product. The benign dormant bacteria are embedded throughout the molded product, including being buried within a body of the molded product and being presented on a surface of the molded product. The benign dormant bacteria presented on the surface of the molded product are activatable upon exposure of the surface of the molded product to the organic matter, and the benign activated bacteria digest the organic matter to control production of offensive odors. Abrasive wear of the surface of the molded product exposes fresh benign dormant bacteria buried in the body to the surface for additional odor control. | ||||||
| 7 | A CRUSHING MILL FOR CRUSHING FIBROUS MATERIAL AND A UNIT FOR FORMING ABSORBENT CORES IN A MACHINE WHICH MAKES ABSORBENT SANITARY ARTICLES | US15556796 | 2016-03-15 | US20180043576A1 | 2018-02-15 | Matteo PIANTONI; Valerio SOLI |
| A crushing mill for crushing fibrous material for a unit for forming absorbent cores in a machine which makes absorbent sanitary articles, including a casing having an infeed opening and an outfeed opening for the fibrous material, a rotor rotatable about its axis of rotation and housed in the casing at an intermediate position between the infeed opening and the outfeed opening. Also provided is an auxiliary opening operatively interposed between the infeed opening and the outfeed opening, with reference to a direction of rotation of the rotor, and adapted to allow feeding a particulate absorbent material into an intermediate zone between the infeed opening and the outfeed opening. | ||||||
| 8 | Machine for mixing, plasticating and pressing out of plastics, rubber and other highly viscous materials at controlled pressure | US3669415D | 1970-02-10 | US3669415A | 1972-06-13 | NIELANDER HENRIK |
| A mixing and plasticating machine which comprises a mixing and plasticating cylinder, an axially movable mixing and plasticating rotor with passages, the shaft of said mixing and plasticating rotor being connected to a rotary drive outside the mixing and plasticating cylinder, and an axially movable pressing piston. Said mixing and plasticating rotor and said pressing piston are axially movable independently of each other in said mixing and plasticating cylinder.
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| 9 | Liquid silicone rubber | JP2007292473 | 2007-11-09 | JP2008138197A | 2008-06-19 | JERSCHOW PETER; SCHAFFER ERICH |
| PROBLEM TO BE SOLVED: To provide a method of producing a curable organopolysiloxane material. SOLUTION: The production of the material is carried out by the followings. After once (A) a compound having a group comprising an aliphatic C-C multiple bond with (B) an organopolysiloxane having an Si-bonded hydrogen atom, or (A) with (D) a catalyst, by an amount of 100 pts.mass, is transferred into a vessel, 0.3-5 pts.mass of (D) in terms of a material for preparing the catalyst, or 0.3-5 pts.mass of (B) is metered and added to (A) with (B) in a mixer of a plastic-molding machine or to (A) with (D), respectively. Thereby the cycle time is shortened and contact time of a Pt catalyst with a material incompatible with the catalyst is shortened, preventing the catalyst from deteriorating its activity before molding. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 10 | Impregnated Odour Control Products And Methods Of Making The Same | US15956079 | 2018-04-18 | US20180228164A1 | 2018-08-16 | Philip P. Chow; Catherine Ciupa |
| A product capable of controlling odours arising from organic matter, and a method of making the product. The product comprises an admixture of a moldable thermoplastic and a benign dormant bacteria in a sporulated form, which admixture is formed by mixing the benign dormant bacteria into the moldable thermoplastic when the moldable thermoplastic is melted, and molding the admixture into a molded product. The benign dormant bacteria are embedded throughout the molded product, including being buried within a body of the molded product and being presented on a surface of the molded product. The benign dormant bacteria presented on the surface of the molded product are activatable upon exposure of the surface of the molded product to the organic matter, and the benign activated bacteria digest the organic matter to control production of offensive odours. Abrasive wear of the surface of the molded product exposes fresh benign dormant bacteria buried in the body to the surface for additional odour control. | ||||||
| 11 | FIBER-REINFORCED COMPOSITES MADE WITH REACTIVE RESIN COMPOSITIONS AND FIBERS | US14088066 | 2013-11-22 | US20150148485A1 | 2015-05-28 | Asheber Yohannes; Mingfu Zhang; Michael J. Block; Klaus Friedrich Gleich; Jawed Asrar |
| Methods of making fiber-resin compositions are described. The method may include the providing of a reactive resin composition to an extruder, where the reactive resin composition may include monomers, oligomers, or both, that are capable of polymerizing into a thermoplastic resin. The method may further include combining the reactive resin composition with a plurality of reactive fibers that are also supplied to the extruder. The plurality of reactive fibers may be sized with at least one polymerization agent and/or coupling agent. The fiber-resin composition may be extruded from the extruder, where the composition includes a thermoplastic resin in contact with the plurality of fibers that is formed by the polymerization of the monomers and/or oligomers of the reactive resin composition. Also described are methods of making fiber-reinforced composite articles from the fiber-resin composition. | ||||||
| 12 | IMPREGNATED ODOUR CONTROL PRODUCTS AND METHODS OF MAKING THE SAME | US14034109 | 2013-09-23 | US20150086519A1 | 2015-03-26 | Philip P. Chow; Catherine Ciupa |
| A product capable of controlling odours arising from organic matter, and a method of making the product. The product comprises an admixture of a moldable thermoplastic and a benign dormant bacteria in a sporulated form, which admixture is formed by mixing the benign dormant bacteria into the moldable thermoplastic when the moldable thermoplastic is melted, and molding the admixture into a molded product. The benign dormant bacteria are embedded throughout the molded product, including being buried within a body of the molded product and being presented on a surface of the molded product. The benign dormant bacteria presented on the surface of the molded product are activatable upon exposure of the surface of the molded product to the organic matter, and the benign activated bacteria digest the organic matter to control production of offensive odours. Abrasive wear of the surface of the molded product exposes fresh benign dormant bacteria buried in the body to the surface for additional odour control. | ||||||
| 13 | 繊維材料を粉砕する粉砕用ミル及び吸収性衛生用品を製造する機械の吸収性コアを形成するユニット | JP2017549058 | 2016-03-15 | JP2018513779A | 2018-05-31 | ピアントーニ,マッテオ; ソリ,ヴァレーリオ |
| 吸収性衛生用品を製造する機械の吸収性コアを形成するユニット用の繊維材料を粉砕する粉砕用ミルは、繊維材料(F)用の供給入口開口部(2a)及び供給出口開口部(2b)を有するケーシング(2)と、回転軸(A)を中心に回転可能であり、供給入口開口部(2a)と供給出口開口部(2b)との間の中間位置においてケーシング(2)内に収納されている回転体(3)と、を備える。また、回転体(3)の回転方向を基準にして、供給入口開口部(2a)と供給出口開口部(2b)との間に動作可能に配置されており、供給入口開口部(2a)と供給出口開口部(2b)との間の中間区域に粒子状吸収性材料(SAP)を給送可能にするように構成される補助開口部(2c)が設けられている。 | ||||||
| 14 | JPS5125627B1 - | JP9932669 | 1969-12-10 | JPS5125627B1 | 1976-08-02 | |
| 15 | A THERMOSET COMPOSITE MATERIAL AND STRUCTURAL COMPONENT AND THE METHOD OF MAKING FROM ENGINEERED RECYCLED RUBBER POWDER | EP15781011 | 2015-02-27 | EP3145970A4 | 2018-02-28 | CIALONE ANTHONY M; GRUBB MICHAEL |
| A thermoset composite material and composite railroad crosstie fabricated from the thermoset composite material that comprises a substantially homogeneous blend of an amount of vulcanized rubber particles, polyurea binding agent and urea melamine. The thermoset composite material may also contain a granulated silica material. The thermoset composite material may comprise about 30% to about 50% by weight of the vulcanized rubber particles, and it is subjected to compression molding at a predetermined temperature and pressure for a resident time period forming the composite railroad crosstie. The thermoset composite material and railroad crosstie may further comprise a fibrous glass material in the form of unbundled fibers and/or one more glass mats encapsulated within the thermoset composite material. In addition or alternatively, an elongated core insert may be encapsulated in the thermoset composite material. | ||||||
| 16 | Flüssigsiliconkautschuk | EP07121295.5 | 2007-11-22 | EP1927631A1 | 2008-06-04 | Jerschow, Peter; Schaffer, Erich |
Verfahren zur Herstellung von härtbaren Organopolysiloxanmassen, enthaltend |
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| 17 | A process for making plastisol compositions | EP03025079.9 | 2003-11-03 | EP1528078A1 | 2005-05-04 | Vidal Codina, Humberto |
The present invention relates to a (semi-) continuous method for making plastisol compositions comprising the steps of delivering into a blender a metered amount of polymer powder(s), filler(s), other constituents in powder form and liquid constituents, blending the mixture at low shear, recirculating said mixture with a pump through a dynamic mixer back into the blending tank, optionally degassing the plastisol composition discharging the composition into storage containers. This method results in plastisols with superior rheological properties within narrowly defined viscosity and yield point ranges without maturing stages. |
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| 18 | 섬유 재료를 파쇄하는 파쇄기 및 흡수성 위생 용품을 제조하는 기계에서 흡수성 코어를 형성하는 유닛 | KR1020177030069 | 2016-03-15 | KR1020170129868A | 2017-11-27 | 피안토니마테오; 솔리발레리오 |
| 본발명은흡수성위생용품을제조하는기계에서흡수성코어를형성하는유닛을위한섬유재료를파쇄하는파쇄기에관한것으로, 섬유재료(F)를위한공급개구(2a) 및배출개구(2b)를갖는케이싱(2)과회전축(A)을중심으로회전가능하고공급개구(2a)와배출개구(2b) 사이의중간위치에서케이싱(2) 내에수용되는로터(3)를포함한다. 또한, 로터(3)의회전방향을참조하여공급개구(2a)와배출개구(2b) 사이에작동가능하게개재되는보조개구(2c)가제공되며, 상기보조개구(2c)는공급개구(2a)와배출개구(2b) 사이의중간영역으로미립자흡수성재료(SAP)가공급되도록구성된다. | ||||||
| 19 | 액상 실리콘 고무 | KR1020070118358 | 2007-11-20 | KR1020080048933A | 2008-06-03 | 예르쇼브페터; 샤퍼에리히 |
| A method for preparing a curing organopolysiloxane composition is provided to improve the efficiency of preparation by preventing the damage of catalyst activity, by controlling curing velocity and by saving cost. A method for preparing a curing organopolysiloxane composition comprises the steps of injecting 100 parts by weight of a compound having a radical containing an aliphatic carbon-carbon multiple bond and an organopolysiloxane having a Si-bonded hydrogen atom, or a compound having a radical containing an aliphatic carbon-carbon multiple bond and a catalyst into a container; and supplying 0.3-5 parts by weight of the catalyst or the organopolysiloxane having a Si-bonded hydrogen atom. | ||||||
| 20 | A CRUSHING MILL FOR CRUSHING FIBROUS MATERIAL FOR A UNIT FOR FORMING ABSORBENT CORES IN A MACHINE WHICH MAKES ABSORBENT SANITARY ARTICLES. | EP16719499.2 | 2016-03-15 | EP3270842A1 | 2018-01-24 | PIANTONI, Matteo; SOLI, Valerio |
| A crushing mill for crushing fibrous material for a unit for forming absorbent cores in a machine which makes absorbent sanitary articles, including a casing having an infeed opening and an outfeed opening for the fibrous material, a rotor rotatable about its axis of rotation and housed in the casing at an intermediate position between the infeed opening and the outfeed opening. Also provided is an auxiliary opening operatively interposed between the infeed opening and the outfeed opening, with reference to a direction of rotation of the rotor, and adapted to allow feeding a particulate absorbent material into an intermediate zone between the infeed opening and the outfeed opening. | ||||||
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