| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 模制件如厨房水槽、盥洗盆或类似器具和这种模制件的制造方法 | CN201180044421.9 | 2011-09-06 | CN103119000A | 2013-05-22 | R·帕特诺斯特; J·盖尔; R·赖兴贝格尔 |
| 本发明涉及一种模制件(1),如厨房水槽、盥洗盆、工作盘或类似的器具,其由包括硬化的聚合物粘结剂和嵌入其中的填料颗粒的复合材料通过从优选可多次使用的模具的成型来制造,其中,所述模制件(1)的可视侧(10)的表面,特别是所述模制件(1)的、在该模制件(1)的使用状态中基本上水平的可视侧(10)的表面(8)具有由各气孔(20)构成的不平度,其特征在于:所述可视侧(10)的大于30%且小于90%的、特别是大于40%且小于80%的以及优选大于50%且小于65%的表面(8)由气孔(20)构成,这些气孔的宽度(24)的平均值大于0.1毫米且小于1毫米,这些气孔的深度(26)的平均值大于10微米且小于50微米,而且所述气孔(20)的深度(26)与宽度(24)的比率的平均值在1:4与1:30之间,以及一种用来制造这种模制件的方法。 | ||||||
| 22 | 一种具有3D效果的陶瓷涂料及其涂覆方法 | CN201210450763.7 | 2012-11-12 | CN102911537A | 2013-02-06 | 李力锋; 吴勇; 张磊; 陈科生 |
| 本发明涉及一种具有3D效果陶瓷涂料及其涂覆方法,其具体步骤为:一:图案的设计:二陶瓷涂料的配比:三制备:(1)基材喷砂和清洗;(2)基材预热45~50℃;(3)喷涂底漆,膜厚25~30μm;(4)在基材上摆放具有图案的磁块模具,喷涂磁粉涂料,膜厚2~3μm后,立即喷涂面漆,膜厚3~5μm;(磁块模具在喷涂底层前可直接放置夹具上)夹具转速比常规稍慢,以免影响磁粉排列规则;(5)面漆喷涂后取下,低温固化,固化温度为80~100℃,固化时间为8~10min;(6)高温固化,固化温度为240~280℃,固化时间为10~20min。本发明的优点:使用简单,成本低,装饰效果较佳;图案可控,具有3D逼真效果,迎合市场的需要;涂层具有较强的不粘性和耐磨性。 | ||||||
| 23 | 改性无机粉复合材料及其制造方法 | CN201010225614.1 | 2010-07-13 | CN101905962B | 2013-01-02 | 石磊 |
| 本发明公开了一种改性无机粉复合材料及其制造方法。其原料中含有水泥6~30%、乳胶粉0.5~4%、丙烯酸类聚合物乳液10~40%、颜料0~3%,余量为改性无机粉。改性无机粉为稀土偶联剂、铝酸酯偶联剂或钛酸酯偶联剂等改性的废弃建筑水泥砌块粉料、石材厂废弃粉料、煤渣粉料、陶瓷厂废弃粉料、砂土中的至少一种。制造方法包括将原料混合,加水搅拌,得到均匀浆料;将浆料涂覆、灌注或挤压在模具上,常温固化或50~150℃烘干,脱模;得到复合材料。本发明可通过不同的模具和原料配比,制成柔度适中的建筑装饰面材,地柔度的板材或高柔度的皮材。本发明采用各种建筑废料以及其他常用的原料制造,充分利用了建筑废料,经济环保。 | ||||||
| 24 | 环保复合材料及其应用 | CN200910303917.8 | 2009-07-01 | CN101591162B | 2012-01-11 | 高农 |
| 本发明提供一种新型环保复合材料及其应用,属于材料制备技术领域。该复合材料的原料包括:以氧化镁和氯化镁作基料,以锯末粉或沙子或竹粉为填料,添加以二氧化硅和二氧化钛作为活性剂;制备方法为:将氯化镁与水按照质量比为1∶1-2的比例提前12小时融化于水,再与其它原料混合搅拌均匀,倒入模具中,自然凝固或加温凝固后,出模制备得成型的复合材料。本发明的新型环保复合材料可以用于制备茶盘、茶具、浮雕、各种具有雕刻效果的装饰板材。本发明解决了现有单一材料或复合材料的缺陷,其原料配比科学合理,来源广泛丰富,绿色环保节能,价格低廉,制作工艺简单,制备的产品性能优异,具备很强的使用及装饰效果以及市场竞争力。 | ||||||
| 25 | 改性无机粉复合材料及其制造方法 | CN201010225614.1 | 2010-07-13 | CN101905962A | 2010-12-08 | 石磊 |
| 本发明公开了一种改性无机粉复合材料及其制造方法。其原料中含有水泥6~30%、乳胶粉0.5~4%、丙烯酸类聚合物乳液10~40%、颜料0~3%,余量为改性无机粉。改性无机粉为稀土偶联剂、铝酸酯偶联剂或钛酸酯偶联剂等改性的废弃建筑水泥砌块粉料、石材厂废弃粉料、煤渣粉料、陶瓷厂废弃粉料、砂土中的至少一种。制造方法包括将原料混合,加水搅拌,得到均匀浆料;将浆料涂覆、灌注或挤压在模具上,常温固化或50~150℃烘干,脱模;得到复合材料。本发明可通过不同的模具和原料配比,制成柔度适中的建筑装饰面材,地柔度的板材或高柔度的皮材。本发明采用各种建筑废料以及其他常用的原料制造,充分利用了建筑废料,经济环保。 | ||||||
| 26 | 氯氧镁水泥的应用 | CN200710052844.0 | 2007-07-26 | CN101104294B | 2010-12-08 | 张勇; 魏庭梁 |
| 本发明涉及一种氯氧镁水泥的应用。氯氧镁水泥的应用,其特征在于氯氧镁水泥应用生产一次性餐具。本发明应用生产一次性餐具,该一次性餐具可循环利用、绿色环保、对人体有健康功效。 | ||||||
| 27 | 新型环保复合材料及其应用 | CN200910303917.8 | 2009-07-01 | CN101591162A | 2009-12-02 | 高农 |
| 本发明提供一种新型环保复合材料及其应用,属于材料制备技术领域。该复合材料的原料包括:以氧化镁和氯化镁作基料,以锯末粉或沙子或竹粉为填料,添加以二氧化硅和二氧化钛作为活性剂;制备方法为:将氯化镁与水按照质量比为1∶1-2的比例提前12小时融化于水,再与其它原料混合搅拌均匀,倒入模具中,自然凝固或加温凝固后,出模制备得成型的复合材料。本发明的新型环保复合材料可以用于制备茶盘、茶具、浮雕、各种具有雕刻效果的装饰板材。本发明解决了现有单一材料或复合材料的缺陷,其原料配比科学合理,来源广泛丰富,绿色环保节能,价格低廉,制作工艺简单,制备的产品性能优异,具备很强的使用及装饰效果以及市场竞争力。 | ||||||
| 28 | MMA高强度人造石异型盆/槽常温制造工艺 | CN200910045144.8 | 2009-01-09 | CN101474827A | 2009-07-08 | 周显达; 周震宇 |
| 本发明公开一种MMA高强度人造石异型盆/槽常温制造工艺,将甲基丙烯酸甲脂树脂、石英砂、促进剂、固化剂进行混合、注模、固化成型,所述混合是将在搅拌机中真空搅拌,真空度8MPa;边振动边挤出浇注到模具内完成注模;合模至静止固化放热峰,并脱模烘烤。针对原有工艺成本高、难以脱模的缺点,提供一种MMA高强度人造石异型盆/槽常温制造工艺,一方面降低成本,另一方面也提高产品的机械性能。其效果显著:一、采用常温浇注取代以往的高温浇注,能耗低,施工简便;二、采用真空搅拌,成品质地优良、外形美观。 | ||||||
| 29 | 基底上的金属涂层 | CN200810184760.7 | 2008-06-20 | CN101457358A | 2009-06-17 | J·C·霍尔兹海默; H·帕里克; I·宋 |
| 本发明提供了将金属涂层涂布到非金属的、非导电性的、化学活性的、易受腐蚀的或用其它方法不能涂布的基底上的方法,其中金属涂层牢固的附着到基底上。首先,中间涂层被施用到基底上。然后,处理中间涂层。随后,金属涂层被涂布到经处理的中间涂层上。 | ||||||
| 30 | 成形绝热体 | CN02106570.5 | 2002-02-28 | CN1207242C | 2005-06-22 | R·基彻雷; B·米克施尔; E·约翰; M·曼格勒; G·克拉特 |
| 一种成形绝热体包括模制和/或烧结绝热材料,并含有火成二氧化硅、遮光剂和纤维。绝热材料的BET表面系数低于100m2/g,如在10至100m2/g之间,使得成形绝热体吸收较少的水。在辐射加热器的情形下,成形绝热体吸收可被用作加热电阻的基部。 | ||||||
| 31 | 一种新材料桌面板及其制造工艺 | CN95106184.4 | 1995-06-05 | CN1137501A | 1996-12-11 | 黄裕洪 |
| 本发明涉及一种不燃复合型新材料桌面板及其制造工艺,采用氧化镁、氯化镁水溶液、硅藻土、木粉、石膏粉、磷酸二氢铵等原料,按一定配比,经混和搅拌,通过模具一次浇注成型,脱模后的初坯桌面板通过浸水养护和高温固化处理,该桌面板具有防水、防火、防裂功能,质地坚韧、耐磨性好、经久耐用,克服了木头板、密度板制成的桌面板久用后会发生火烧、受潮、虫蛀、鼠咬、使用寿命短等缺点,本桌面板的试制成功,填补了国内空白,具有显著的社会、经济效益。 | ||||||
| 32 | 石膏复合材料及其生产工艺 | CN94108200.8 | 1994-07-18 | CN1115309A | 1996-01-24 | 朱宏兴; 黄凯 |
| 本发明涉及一种石膏复合材料,特别是一种用于家具制造的石膏复合材料;其目的在于提供一种高于一般石膏复合材料性能,能用于制造家具的高强度石膏复合材料;其中含有经过750℃-800℃煅烧的石膏粉,硅酸盐水泥、聚乙烯醇、胶料、金属纤维、玻璃网布等;分三次注入模具,脱模后,在制品表面喷涂瓷料;特别适合制造家庭用家具、学校的课桌、商店的货架等。 | ||||||
| 33 | CURABLE CASTING COMPOUND FOR PRODUCING PLASTICS MOULDED PARTS AND USE THEREOF | US16102046 | 2018-08-13 | US20180346379A1 | 2018-12-06 | Andreas Hajek |
| In one aspect, the disclosed examples relate to a curable casting compound for producing plastics moulded parts. For example, the curable casting compound may include a binder component on the basis of a polymerisable monomer and a proportion of approximately 40% to approximately 85% by weight of one or more inorganic fillers. In one example, the casting compound includes an aluminosilicate as one of the inorganic fillers. Other examples are provided. | ||||||
| 34 | Glaze-like coatings used to make oven bake clays food and drink safe | US15241369 | 2016-08-19 | US10053391B2 | 2018-08-21 | Noah Lee Crane; Alan Laurence Crane |
| The present invention is directed at coatings for oven bake clay that when applied make the surface of the resulting object food safe. Among the many different possibilities contemplated, the coating may contain one or more food safe plastics that may be in particle form and may form suspensions or colloids when mixed with water, food safe oil or other food safe liquids to ease application. Among the many potential additional ingredients contemplated, the coating may contain one or more surfactants to improve the formation of a suspension or colloid or one or more food safe dyes so that the oven bake clay can be painted. Among the many methods of making the coating contemplated, the components may be mixed to form a suspension or colloid through one or more of agitation, stirring or sonication. It is further contemplated that the coating may be applied to an unbaked oven bake clay object and then baked or alternatively applied to a baked oven bake clay object and then re-baked. | ||||||
| 35 | COMPOSITIONS, SYSTEMS, AND NEURAL NETWORKS FOR BIDIRECTIONAL ENERGY TRANSFER, AND THERMALLY ENHANCED SOLAR ABSORBERS | US15880790 | 2018-01-26 | US20180156551A1 | 2018-06-07 | Brett P. GUARRERO |
| The present invention provides a bidirectional energy-transfer system comprising: a thermally and/or electrically conductive concrete, disposed in a structural object; a location of energy supply or demand that is physically isolated from, but in thermodynamic and/or electromagnetic communication with, the thermally and/or electrically conductive concrete; and a means of transferring energy between the structural object and the location of energy supply or demand. The system can be a single node in a neural network. The thermally and/or electrically conductive concrete includes a conductive, shock-absorbing material, such as graphite. Preferred compositions are disclosed for the thermally and/or electrically conductive concrete. The bidirectional energy-transfer system may be present in a solar-energy collection system, a grade beam, an indoor radiant flooring system, a structural wall or ceiling, a bridge, a roadway, a driveway, a parking lot, a commercial aviation runway, a military runway, a grain silo, or pavers, for example. | ||||||
| 36 | GLAZE-LIKE COATINGS USED TO MAKE OVEN BAKE CLAYS FOOD AND DRINK SAFE | US15241369 | 2016-08-19 | US20170050889A1 | 2017-02-23 | Noah Lee Crane; Alan Laurence Crane |
| The present invention is directed at coatings for oven bake clay that when applied make the surface of the resulting object food safe. Among the many different possibilities contemplated, the coating may contain one or more food safe plastics that may be in particle form and may form suspensions or colloids when mixed with water, food safe oil or other food safe liquids to ease application. Among the many potential additional ingredients contemplated, the coating may contain one or more surfactants to improve the formation of a suspension or colloid or one or more food safe dyes so that the oven bake clay can be painted. Among the many methods of making the coating contemplated, the components may be mixed to form a suspension or colloid through one or more of agitation, stirring or sonication. It is further contemplated that the coating may be applied to an unbaked oven bake clay object and then baked or alternatively applied to a baked oven bake clay object and then re-baked. | ||||||
| 37 | CONCRETE MIX AND PRODUCTS INCLUDING RECYCLED PORCELAIN | US14273627 | 2014-05-09 | US20140338570A1 | 2014-11-20 | Dale Paul Laurin |
| A concrete mix for use in forming molded concrete end products is disclosed. The concrete mix includes treated porcelain kernels, cement and sand. The treated porcelain kernels are formed from recycled and currently unusable porcelain products. The porcelain products are crushed and processed to create porcelain kernels having a desired size. The porcelain kernels having the desired size are mixed with cement and sand and the concrete mix is packaged for subsequent use. The concrete mix including the porcelain kernels formed from recycled porcelain products allows the porcelain end products to be recycled while providing concrete products that have lighter weight and greater flame resistance. | ||||||
| 38 | HEAT-EMITTING COMPOSITION ABSORBING MICROWAVES AND EMITTING HEAT, TRANSFER PAPER COMPRISING SAME, FAR-INFRARED-EMITTING CERAMIC WARE COMPRISING SAME, AND PREPARATION METHOD THEREOF | US14080334 | 2013-11-14 | US20140220272A1 | 2014-08-07 | Oh Hoon Lee |
| The present disclosure relates to a heat-emitting composition coated on the surface of a heat-resistant ceramic ware and emitting heat by absorbing microwaves, which includes a heat-emitting metal oxide material and a binding material, a transfer paper for a ceramic ware including same, a far-infrared-emitting ceramic ware including same, and a method for preparing same. The heat-emitting composition coated on the surface of the ceramic ware absorbs microwaves from a microwave oven and emits heat and far-infrared light, such that food can be cooked evenly in short time by the emitted far-infrared light without burning or drying on the food surface. Further, the far-infrared-emitting ceramic ware can be used as a far-infrared-emitting medical device for fomentation. Also, because of superior heat resistance, the far-infrared-emitting ceramic ware of the present disclosure can be directly heated. Accordingly, cooking can be performed using various means such as gas stove, oven, etc. in addition to the microwave oven. | ||||||
| 39 | Decoration method | US11101328 | 2005-04-07 | US07166333B2 | 2007-01-23 | James Anthony Lodge |
| A method of decorating an article, the method comprising mixing a thermochromic ink with a transparent lacquer, applying the mixture on to part or all of the surface of an article, once the mixture is set, applying a second layer of dishwasher proof transparent lacquer. | ||||||
| 40 | Method for decorating articles | US11256246 | 2005-10-21 | US20060088662A1 | 2006-04-27 | Ram Sharma |
| A method of decorating a ceramic article, said method comprising the steps of: a) mixing a metallic pigment with a resin to form a first coating mixture; b) applying the first coating directly onto a part or substantially the whole outer surface of the ceramic article; c) once the first coating mixture is cured, applying a second coating material over the first coating mixture, wherein the second coating material is substantially dishwasher proof. | ||||||
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