子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Harden not clay composition and a method of manufacturing the same | JP2012529696 | 2011-02-25 | JP2012530956A | 2012-12-06 | ジョンヨン チョ |
| 【課題】本発明は、既存の一般の粘土、砂、人工粘土、ゴム粘土、紙粘土などの代わりに遊び、教育、作品造形などに使用できる粘土組成物に関するもので、特に、固まらないため長時間同一の性状が維持されながら、水がなくても繰り返して使用可能な環境にやさしい素材の新しい粘土組成物及びその製造方法に関するものである。
【解決手段】本発明では、多孔性の珪藻土粒子を母材として親水性と親油性の両方の性質を有する液状物質を混練し、固まらずに長時間繰り返して使用できる新しい性状の粘土物質を製造する。 本発明の粘土組成物は、可塑性を帯びる粘土の性質、ボロボロした土の性質、反復的に固めたり崩すことのできる砂の性質を有し、組成物の成分構成及び含量調節によって特性の異なる多様な性状の粘土に製造することができる。 また、天然物質及び人体に無害でかつ自然分解が可能な環境にやさしい素材からなり、子供が長時間触って遊んでも安全であり、多孔性構造の珪藻土を媒体として用いて抗菌物質などの多様な機能性物質を担持することができ、機能性物質の持続的な効果発現も可能である。 【選択図】図1 |
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| 62 | Nepheline syenite powder having a controlled particle size and method new preparation | JP2010516024 | 2008-06-27 | JP2010533121A | 2010-10-21 | アナジア,イベジム; エム シュレジンガー,ルイス; ルモーテル,スコット バン; ラトクリフ,ロバート |
| 前処理済み霞石閃長岩粉末原材料から製造される超微細霞石閃長岩粉末であり、約12ミクロン未満の粒子径分布D5〜D95を備える、約20ミクロン未満の『制御された』最大粒子径D95あるはD99と、2〜8ミクロンの範囲の『制御された』最小粒子径D5と、を有する粉末を提供する。
【選択図】図21 |
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| 63 | 衛生陶器素地用組成物、その製造方法、および該組成物を用いた衛生陶器の製造方法 | JP2004539561 | 2003-09-26 | JPWO2004028995A1 | 2006-01-26 | 秀美 石川; 克博 川上; 剛 小関; 高親 荒川; 町田 光義; 町田 光義 |
| 長期保存性、移送性、およびスラリー再生性に優れる、鋳込み成形に用いられる衛生陶器素地用組成物、その製造方法、および衛生陶器素地用組成物を用いた衛生陶器の製造方法が開示されている。この衛生陶器素地用組成物は、衛生陶器素地用原料の粉末の凝集物を含んでなり、0〜25重量%の含水率を有し、前記粉末の個数基準による50%平均粒径が1〜15μmであるものである。この衛生陶器素地用組成物に水を添加して攪拌することにより、鋳込み成型に用いられる衛生陶器素地原料スラリーが得られる。 | ||||||
| 64 | It is abrasion resistance of the molded, the object containing the crystalline anionic clay | JP2001516872 | 2000-08-11 | JP2003507303A | 2003-02-25 | パウル オッコナー,; デニス スタミレス, |
| (57)【要約】 本発明は、a)前駆体混合物を調製する工程、b)前駆体混合物を成形して成形体を得る工程、c)所望により成形体を熱処理する工程、およびd)エージングを行なって結晶性アニオン性粘土を含有する物体を得る工程を含む、アルミニウム源およびマグネシウム源を含む源から結晶性アニオン性粘土を含有する物体を製造する方法に関する。 本発明の真髄は、物体において結晶性アニオン性粘土が形成される前に物体が成形されることである。 この結果、バインダー物質を添加する必要なく、非常に耐摩耗性の物体が得られる。 | ||||||
| 65 | Method for manufacturing large-sized ceramic plate | JP2000065995 | 2000-03-10 | JP2001253761A | 2001-09-18 | IGAMI HIDEO |
| PROBLEM TO BE SOLVED: To remove the disadvantage that a large-sized thin ceramic tile is apt o deform or crack during manufacture and to epoch-makingly improve the contents of the pertinent patents of West Germany and USA furthermore for remarkably increasing the production efficiency of the tile. SOLUTION: This method for manufacturing large-sized ceramic thin plates is based on the technique shown in USA Parent 4,495,118 registered as a method for continuously producing the ceramic thin plate with high efficiency by improving a burner and a process to align the oriented structures of a raw material mineral uniformly. The research and development on the quality of the raw material, the physical properties of the product and various points to be improved in the process is continued while the product is produced and supplied to the market on the basis of the above technique for ten and several years. As a result, the productivity has been increased 1.6 times and the defective rate of finishes products has been decreased by 50% or more by epoch-makingly improving four elements described in the detailed statement of this patent. COPYRIGHT: (C)2001,JPO | ||||||
| 66 | JPS5240917B1 - | JP8400767 | 1967-12-28 | JPS5240917B1 | 1977-10-14 | |
| 67 | JPS5144131B1 - | JP3288070 | 1970-04-17 | JPS5144131B1 | 1976-11-26 | |
| 68 | JPS4951305A - | JP6628273 | 1973-06-12 | JPS4951305A | 1974-05-18 | |
| 69 | JPS4822807B1 - | JP8482068 | 1968-11-21 | JPS4822807B1 | 1973-07-09 | |
| 70 | 세라믹 조성물, 그 제조방법 및 이를 이용한 방열부재 | KR1020150036980 | 2015-03-17 | KR1020150039185A | 2015-04-09 | 황명주; 윤길주 |
| 본발명의세라믹조성물은세라믹수지, 분산매및 무기충진제를포함한다. 상기세라믹조성물은, 피도물표면에코팅되어내전압성, 고내열성및 열전도성이향상된우수한물성의도막을형성한다. | ||||||
| 71 | 원적외선 발생물 | KR1020090010929 | 2009-02-11 | KR1020100091638A | 2010-08-19 | 강민구 |
| PURPOSE: A far infrared ray generating product is provided to obtain a raw ore useful for the human body, by mixing different kinds of minerals with different wavelengths. CONSTITUTION: A far infrared ray generating product contains 20% of germanium, 20% yellow soil, 20% of elvan, 20% of conglomerate with seven colors, and 20% of jade powder with different energy wavelengths. The mixture containing the previous contents radiates a far infrared ray. | ||||||
| 72 | 황토매트용 황토소자의 제조방법 | KR1020020061526 | 2002-10-09 | KR1020040032404A | 2004-04-17 | 정성우 |
| PURPOSE: A method for producing a loess element with improved durability and workability, which can conveniently produce loess element in various sizes, is provided by removing air and moisture from the loess, thereby helping to diverse types of products. CONSTITUTION: The method for producing a loess element comprises: screening and mixing raw materials; charging the mixture into a pug mill(1), kneading, and drawing a rod-shaped loess element from a discharging port(2) of the pug mill; cutting the rod-shaped loess element to a certain thickness; maintaining the cut loess elements in an electric furnace at 450 deg.C for 5-10 minutes to adjust their moisture content; classifying the loess elements by size; applying infra-red ray and wind to the loess elements aligned on a conveyer belt in order to secondly adjust the moisture content; kneading the loess elements and charging them into a high-pressure molding machine; operating the molding machine to form a processed loess elements and remove airs therefrom, and repeating this step 3 times; and drying the resulted loess elements by sequentially passing through an electric and gas furnace at 80-150 deg.C, 150-250 deg.C, 250-350 deg.C, and 600 deg.C. The loess elements in various sizes can be produced by attaching a mold panel(3) having discharge holes of different sizes to the discharging port. | ||||||
| 73 | 황토를 이용한 건자재의 제조방법 | KR1020000018950 | 2000-04-11 | KR1020010095661A | 2001-11-07 | 조경훈; 임만택 |
| PURPOSE: Provided is a manufacturing method of construction materials which have heat insulation, emission of far infrared ray, moisture-proof and antibacterial property by adding yellow earth to raw materials, waste glass or paper. CONSTITUTION: The method comprises the steps of: mixing yellow earth powder(100-2500mesh), ground waste glass(100-1000mesh) as raw materials, and carbon black as foaming materials in a weight(or volume) ratio of 5-30 : 40-90 : 0.3-2; sintering at 600 deg.C for 30-50min, then at 900deg.C for 30min; cooling to 50deg.C; and forming by cutting. In case waste paper being wet, is used as a raw material in the ratio of yellow earth, waste paper and binder is 40-50 : 30-40 : 5-15, and optionally charcoal powder(10-1000mesh) and herbs are added to be the ratio of 40-50 : 30-40 : 5-15 ; 1-10 : 0.5-3. | ||||||
| 74 | CONVERSION OF HIGH PURITY SILICON POWDER TO DENSIFIED COMPACTS | PCT/US2006025809 | 2006-06-30 | WO2007005729A3 | 2007-10-11 | RAVI JAGANNATHAN; HARIHARAN ALLEPPEY; CHANDRA MOHAN |
| This invention describes methods of compacting and densifying high purity silicon powder to defined geometric forms and shapes. High purity silicon powder is first mixed with binder from a select group of binders and pressed into desired shapes in a mechanical equipment. The binder is removed either in a separate step or combined with a subsequent sintering operation. The binders and process conditions are chosen to make negligible change to the purity of the silicon in the end product. When high purity silicon powder is utilized in the process, the end use for the densified silicon compacts is primarily as feedstock for silicon-based photovoltaic manufacturing industries. | ||||||
| 75 | 압입재 | KR1020167022195 | 2015-03-24 | KR1020160108506A | 2016-09-19 | 이케베데츠노리; 도조노노부히코; 이노우에다카키미 |
| 본발명은요로에서의간극의밀봉성을향상시킬수 있는압입재를제공한다. 이를위해요로에적용되는압입재에있어서, 80℃~500℃의분위기온도환경하에서가열하였을때에가열전보다 1.3배이상의부피팽창을수반하도록배합조성을조정한다. 예를들어, 합량 100질량% 중에액화가스를내포한열가소성플라스틱체를 0.5질량% 이상 3질량% 이하, 규산염을 3질량% 이상 10질량% 이하배합한다. | ||||||
| 76 | 현무암가루를 이용한 굳지않는 점토 및 그 제조방법 | KR1020150024265 | 2015-02-17 | KR101639767B1 | 2016-07-15 | 정미정; 강경옥 |
| 본발명은작은공극들사이에친환경소재의항균물질등이용이하게침투하여안정성과기능성을향상시킬수 있도록하고, 상기점토의점도를항상일정하게유지할수 있도록하면서, 천연모래의특성을가지면서부드럽고, 손에쉽게달라붙지않고점토의촉감이가일층우수하도록함은물론, 상기공작용점토의특성상조형물의제조후에는조형물형상의변형이없게되면서상기굳지않는점토가쉽게풀어질수 있도록하고, 인체및 동물에무독성이면서, 어린아이들의피부와접촉하여도전혀해가되지않도록하며, 어린아이들의피부를안정되게보호할수 있는기능을수행할수 있도록한현무암가루를이용한굳지않는점토및 그제조방법에관한것이다. 그기술적인구성은, 10~500메쉬(mash) 크기의분말상태인현무암가루, 10~500메쉬(mash) 크기의미립자형태의석탄분진인세노스피어(cenosphere), 접착제, 20~200메쉬(mash) 크기의규조토분말, 지방산, 고분자응집제, 항균제를포함하며, (a) 현무암을 1000℃이상의온도로가열로에서가열하여 10~500메쉬(mash) 크기의분말상태인현무암가루를제작하는단계; (b) 점토의전체중량%에대하여미립자형태의석탄분진인세노스피어(cenosphere) 24~27중량%, 점성을부여하는접착제를 9~10 중량%를혼합기내부에투입하여교반및 혼합하는단계; (c) 상기 (b)단계의혼합된혼합물에고분자응집제 1.5중량% 투입하여일정시간교반하여혼합하는단계; (d) 상기 (c)단계의고분자응집제가혼합된혼합물에상기 (a)단계의분쇄된현무암가루 55~60중량% 투입하여일정시간교반및 혼합하는단계; (e) 상기 (d)단계의현무암가루가혼합된혼합물에 20~200메쉬(mash) 크기의규조토분말 5~6중량% 투입하여일정시간교반및 혼합하는단계; (f) 상기 (e)단계의규조토분말이혼합된혼합물내에항균제 0.5중량%를투입하여교반및 혼합하는단계; 및 (g) 상기 (f)단계의항균제가혼합된혼합물을상온으로건조시켜굳지않는점토를완성하는단계;를포함하여구성되는것을요지로한다. | ||||||
| 77 | 붉은색 RAKU 도자기 화장토와 그 제조방법 | KR1020150000146 | 2015-01-02 | KR1020160083702A | 2016-07-12 | 권영주 |
| 본발명은도자기제작공정중 문양및 표현기법에서사용되는화장토중에서특정한색을발색하는화장토와그 제조방법에관한것이다. 더욱상세하게는일본고유의적색라꾸다완에서발색되는적색과동일하거나유사한색상을발색하는적색화장토및 그제조방법을제공하는것이목적이다. 상기와같은본 발명에따르면, 하동백색고령토(White Kaolin) 100 중량부에침철석(Goethite)을 5 중량부와우스타이트(Wustite)를 9 중량부를혼합하여, 적색라꾸다완의적색과매우유사한적색인, UV측정결과(L*a*b*) 값이각각 56.83, 27.22, 23.28인적색을발색하는화장토를얻을수 있었다. | ||||||
| 78 | 편백나무 부산물을 이용한 세라믹보드 및 그 제조방법 | KR1020140098565 | 2014-07-31 | KR1020160015812A | 2016-02-15 | 김미영 |
| 본발명은내부에내부에숯 층이구성된세라믹보드및 그제조방법에관한것으로서특히, 피톤치드를발산함으로써항균효과가우수하고실내에서장시간생활하는현대인들에게매우유익한편백나무부산물을이용한세라믹보드및 그제조방법에관한것이다. 본발명에의한편백나무부산물을이용한세라믹보드제조방법은황토, 사질, 및점토를분쇄하고, 편백나무부산물을 100~200메시크기로고르게분쇄하는파쇄단계(S100); 상기파쇄단계(S100)를통해분쇄된황토 40~60wt%, 점토 15~20wt%, 사질토 5~15wt%, 편백나무부산물 10~30wt%를혼합하고교반기를이용하여혼합하는혼합·교반단계(S200); 황토, 점토, 사질토및 편백나무부산물에물을혼합하여함수율이 5~25%가되도록혼합물의함수율을조정하는함수율조정단계(S300); 상기함수율조정단계(S300)를통해함수율이 5~25%가되도록함수율을조정한혼합물을프레스성형기에넣어보드형태로압축성형하는프레스성형단계(S400); 상기프레스성형단계(S400)를통해성형된보드의함수율이 2~4%가되도록건조하는건조단계(S500); 상기프레스건조단계(S500)를통해성형된보드를챔버에넣고소성하는소성단계(S600); 상기소성단계(S600)를통해고온으로소성된세라믹보드를냉각시키는냉각단계(S700);로구성된다. | ||||||
| 79 | 건축용 토제품의 제조방법 | KR1019910017728 | 1991-10-10 | KR1019950000692B1 | 1995-01-27 | 이성우 |
| The clay is mixed with 20% of water and 0.1-20 wt.% of a combustible sludge such as a sawdust and industrial wastes. The resultant mixture is formed in a mold to be dried for a day at 50 deg.C in a hot air blower. The dried product is sintered for 10-60 min at 800-1,300 deg.C in an electric pot. The produced porous earthenware has no crack and is manufactured by only one continuous processing. | ||||||
| 80 | METHODS AND PROCESSES OF PREPARING ALUMINUM OXIDE | US14339755 | 2014-07-24 | US20150203361A1 | 2015-07-23 | Bing Zhao; Yun Zhang; Yinsheng Wang; Jinshan Zhang |
| A method for manufacturing high-purity alumina material is disclosed, which includes the steps of: reacting aluminum metal with a mixture of organic base and water to form aluminum hydroxide suspension; removing water by filtration to form aluminum hydroxide slurry, and drying/baking the slurry to form aluminum oxide powders. The method is amenable to mass production of high-purity aluminum oxide containing total silica and non-aluminum metal impurities less than 0.005% and having a bulk density higher than 3.0 g/cc. In addition, the invention also provides high-purity aluminum oxide prepared by using the method disclosed and bulk products prepared therefrom. | ||||||
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