| 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 | CALCIUM PHOSPHATE CEMENT | EP01941021.6 | 2001-06-13 | EP1298103B1 | 2011-05-11 | HIRANO, Masahiro, Mitsubishi Materials Corp.; TAKEUCHI, Hiroyasu, Mitsubishi Materials Corp. |
| A calcium phosphate cement comprising 2 to 10 mass % of a hydration product between calcium secondary phosphate and α type calcium tertiary phosphate, 10 to 25 mass % of forth calcium phosphate, 3 to 10 % of second calcium phosphate and α type calcium tertiary phosphate. The calcium phosphate cement is capable of forming a hardened product having high strength. | ||||||
| 22 | Calcium phosphate cement precursors | EP04250137.9 | 2004-01-13 | EP1439153A1 | 2004-07-21 | Zitelli, Joseph; Mahwer, Peter; Insley, Ger |
A mixture of two or more calcium phosphate compositions are combined with an aqueous solution and are useful as bone fillers on bone cements such as orthopedic and dental cements and remineralizers. The mixtures self-harden to substantially form hydroxyapatite, the mineral phase of bone and tooth enamel. The at least one or more of precursors is prepared in a manner resulting in its having an extremely low moisture level. The use of low moisture components results in an improved shelf life to the mixture. |
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| 23 | COMPOSOTE MATERIALS AND METHODS OF MAKING AND USING SUCH COMPOSITE MATERIALS | EP02793760.6 | 2002-07-23 | EP1417160A2 | 2004-05-12 | FRANCIS, Larry; ROBINSON, W.W.Phi DI; RILEY, Michael, A.; LANGAN, Timothy; AGHAEBRAHIM, Morteza |
| Composite materials made from reactive compounds such as oxides are disclosed. The materials comprise a reaction producing of metal oxide, phosphate and reactive residual materials. The metal oxide may comprise MgO, CaO, ZnO, TiO2 or the like. The phosphate may comprise mono-potassium phosphate, mono-ammonium phosphate, mono-sodium phosphate or the like. The reactive residual material may be ash, phosphate clay, phosphate residual slurry, mining waste or the like. The composite materials may be used for many applications including rapid repair materials, pre-cast structures, in-situ structures, mixes and coatings. | ||||||
| 24 | Calcium phosphate cement, use and preparation thereof | EP01117041.2 | 2001-07-12 | EP1172076A2 | 2002-01-16 | Lin, Jiin-Huey, Chern; Ju, Chien-Ping; Chen, Wen-Cheng No.20, Lane 720 |
A calcium phosphate cement suitable for use in dental and bone prosthesis is disclosed, which include calcium phosphate particles having a diameter of 0.05 to 100 microns, wherein said calcium phosphate particles on their surfaces have whiskers or fine crystals having a width ranging from 1 to 100 nm and a length ranging from 1 to 1000 nm.. |
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| 25 | 무기경화조성물 | KR1019940027263 | 1994-10-25 | KR1019970009983B1 | 1997-06-20 | 고보리시게지; 모리모토죠타로; 하타케야마유지 |
| 내용 없음. | ||||||
| 26 | 속경성 시멘트용 고체 5산화인 함유물질의 제조방법 | KR1019840004859 | 1984-08-11 | KR1019920003224B1 | 1992-04-24 | 프란시스앤토니비아; 포우지가말렐딘쉐리프 |
| 내용 없음. | ||||||
| 27 | Molded body for heat insulating material and method for producing the same | JP2013068862 | 2013-03-28 | JP2013234110A | 2013-11-21 | SHIBAHARA KAZUO; NARUSE YOSHIAKI; TAKAHASHI YOSHIAKI; FUJITA JURI; MATSUURA SHUNSUKE |
| PROBLEM TO BE SOLVED: To provide a practical composition for a heat insulating material that uses crystalline calcium silicate (including hydrate) such as xonotlite, tobermorite, gyrolite, and wollastonite as a raw material, which has better thermal insulation properties than the conventional products and is obtained by a convenient production method with no problems related to the drainage of calcium salt.SOLUTION: A composition for a heat insulating material is obtained by reacting (1) at least one type of crystalline calcium silicate selected from a group consisting of xonotlite, tobermorite, gyrolite, and wollastonite, and (2) at least one type of inorganic substance selected from a group consisting of calcium hydroxide, calcium carbonate, cement, amorphous calcium silicate hydrate, talc, and magnesium hydroxide, with phosphoric acid in the presence of water. | ||||||
| 28 | Reactive tricalcium orthophosphate composition and use thereof | JP2005241867 | 2005-08-23 | JP2005350351A | 2005-12-22 | FULMER MARK; CONSTANTZ BRENT R; ISON IRA C; BARR BRYAN M |
| PROBLEM TO BE SOLVED: To provide a calcium phosphate cement composition and a kit containing a physiologically-acceptable lubricant. SOLUTION: The calcium phosphate cement composition and the kit containing the physiologically-acceptable lubricant are provided. The calcium phosphate cement composition is the calcium phosphate cement composition which is used in the preparation of a calcium phosphate ore. The composition comprises reactive α-tricalcium orthophosphate, at least one kind of additional calcium source, and a partially neutralized phosphate source. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 29 | Calcium phosphate cement precursor | JP2004010187 | 2004-01-19 | JP2004223249A | 2004-08-12 | ZITELLI JOSEPH; MAHER PETER; INSLEY GER |
| <P>PROBLEM TO BE SOLVED: To provide calcium phosphate cement precursor, having improved storage property and shelf life, and mixed with water solution to obtain cement having improved curing time and mechanical strength. <P>SOLUTION: A mixture of two or more calcium phosphate compositions is combined with water solution. These are useful as bone fillers on bone cements such as orthopedic and dental cements and re-mineralizers. The mixture is self-cured to substantially form a hydroxyapatite, the mineral phase of bone and tooth enamel. Preparation is performed to produce the result such that at least one or more precursors have a very low water level. The use of a low-water component results in an improved shelf life to the mixture. <P>COPYRIGHT: (C)2004,JPO&NCIPI | ||||||
| 30 | Method for manufacturing inorganic formed product | JP2000387672 | 2000-12-20 | JP2002187762A | 2002-07-05 | ONOE SEITARO; INOUE AKIRA |
| PROBLEM TO BE SOLVED: To provide a method for manufacturing an inorganic formed product by which the fluidity of the material until hardening is improved resulting in improved workability and the obtained hardened product has excellent mechanical strength and water resistance. SOLUTION: The inorganic formed product is obtained by using a hardenable composition prepared by preliminarily reacting phosphoric acid, phosphites and basic metal compounds of bivalent metals and then uniformly mixing aluminum hydroxide while heating. Further, in the preparation of the hardenable composition, the ratio of the total valence of the phosphate ions and phosphite ions to the total valence of the metal ions included in the respective compounds is specified so as to obtain the inorganic formed product free from cracks or voids and excellent in the water resistance, mechanical strength, dimensional stability and heat resistance. | ||||||
| 31 | Calcium phosphate cement for reinforcing and curing bio-bone capable of forming high strength hardened body | JP2000190524 | 2000-06-26 | JP2002000718A | 2002-01-08 | HIRANO MASAHIRO; TAKEUCHI HIROYASU |
| PROBLEM TO BE SOLVED: To obtain a calcium phosphate cement for reinforcing and curing bio-bone capable of forming a high strength hardened body. SOLUTION: This calcium phosphate cement for reinforcing and curing a bio-bone is formed by a mixed composition having a blended composition comprising 2 to 10 mass% hydration product of secondary calcium phosphate and α-type tertiary calcium phosphate; 10 to 25 mass% quaternary calcium phosphate; 3 to 10 mass% secondary calcium phosphate; and α-type tertiary calcium phosphate and inevitable impurity as residue. | ||||||
| 32 | Reactive tricalcium phosphate composition and use | JP36091697 | 1997-12-26 | JPH10330106A | 1998-12-15 | FULMER MARK; CONSTANTZ BRENT R; ISON IRA C; BARR BRYAN M |
| PROBLEM TO BE SOLVED: To obtain a reactive tricalcium phosphate composition stable at room temperatures and giving α-tricalcium phosphate products in a pure phase by including a physiologically acceptable lubricant and a calcium phosphate cement composition comprising reactive α-tricalcium phosphate, a calcium source and a partially neutralized phosphoric acid source. SOLUTION: Reactive α-tricalcium phosphate is produced by reacting a stoichiometric mixture of CaHPO4 and CaCO3 with each other in an aqueous reaction solvent at a pressure of 0.35-2.1 kg/cm<2> , heating the obtained product having a Ca : phosphate group ratio of 1.5:1 at 1200-1700 deg.C for 1-8 hr and subsequently quenching the product. >=20 wt.% of the obtained reactive α-tricalcium phosphate is compounded with 0.1-10 wt.% of at least one kind of an additional calcium source (e.g. calcium hydroxide) and 1.0-40 wt.% of a partially neutralized phosphoric acid source to obtain a calcium phosphate cement composition. The composition is compounded with a physiologically acceptable lubricant (e.g. water) to provide the objective reactive tricalcium phosphate composition. | ||||||
| 33 | Reactive tricalcium phosphate composition and use | JP51539496 | 1995-10-31 | JP2788553B2 | 1998-08-20 | FURUMAA MAAKU; KONSUTANTSU BURENTO AARU; IZON IRA SHII; BAARU BURAIAN EMU |
| 34 | Reactive tricalcium phosphate composition and use | JP51539496 | 1995-10-31 | JPH09506588A | 1997-06-30 | シー. イゾン,イラ; アール. コンスタンツ,ブレント; エム. バール,ブライアン; フルマー,マーク |
| (57)【要約】 室温において安定であり、純粋な相のα−C 3 Pである生成物の製造方法、およびこれから誘導される組成物を提供する。 本発明の方法において、りん酸三カルシウム源を、実質的にそのすべてを、実質的に純粋な相のα−C 3 P生成物に変換させるのに十分な温度に加熱し、得られた生成物の温度を約700℃より低い温度に急冷して、室温において安定である反応性α−C 3 P生成物を得る。 得られたα−C 3 P生成物は粉砕して、りん酸カルシウム−セメントの製造に使用可能なα−C 3 P組成物を提供することができる。 | ||||||
| 35 | Manufacture of quick-settable magnesium glass cement material | JP17619283 | 1983-09-22 | JPS5978964A | 1984-05-08 | TOSHIFUMI SUGAMA; ROORENSU II KUKATSUKA |
| 36 | リン酸カルシウムセメント組成物、リン酸カルシウムセメントキットおよびリン酸カルシウムセメント硬化体の製造方法 | JP2017051123 | 2017-03-16 | JP2018153300A | 2018-10-04 | 宇野 由華 |
| 【課題】硬化体の分解速度を制御しつつ、硬化体の骨形成能を高める。 【解決手段】本発明の水硬性のリン酸カルシウムセメント組成物は、粉末のリン酸カルシウム成分と、粉末または液体のリン酸系成分と、βリン酸三カルシウム粉末よりも大きな粒子径を有する中空球状であり、粒子径が50μm以上150μm以下であるリン酸カルシウム顆粒とを含む。 【選択図】図1 |
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| 37 | Molded article and a method of manufacturing the same for thermal insulation material | JP2013068862 | 2013-03-28 | JP5425326B2 | 2014-02-26 | 数雄 柴原; 吉昭 成瀬; 芳明 高橋; 樹里 藤田; 俊輔 松浦 |
| 38 | The binder composition and a method of manufacturing the same for the casting element | JP32300596 | 1996-12-03 | JP4298806B2 | 2009-07-22 | クウォク−ツェン・ツェ; リーオニド・ザレツキイ; ロバート・エル・マニング |
| 39 | Granular, fiber-free, microporous thermal insulation material and manufacturing method | JP2008501389 | 2005-11-23 | JP2008533402A | 2008-08-21 | オラス ハリド アブダル−カデル; マーク ダニエル モーティマー; 隆 山室 |
| 熱伝導率0.05 W/mK未満及び収縮率10%以下を有する粒状、ファイバーフリー、微孔性の熱絶縁物質に関する。 当該物質は、自由流動性であり、微孔性絶縁物質30−95%(乾燥質量)、赤外線遮断剤5−70%(乾燥質量)、粒状の絶縁性フィラー物質0−50%(乾燥質量)及び結合剤物質0−5%(乾燥質量)の緊密な混合物の粒子からなる。 当該物質は、微孔性絶縁物質及び赤外線遮断剤を混合して、第1の密度を持つ緊密なエアレイテッド混合物を生成し;緊密な混合物を、第1の体積流量で、押出し手段に運び;緊密な混合物を、第1の体積流量よりも低い第2の体積流量で押出しして、第1の密度よりも大きい第2の密度を持つ圧縮物質とし;多孔性膜を通して、エアレイテッド混合物から空気の一部を排出して、第1の体積流量から第2の体積流量への変化によって緊密な混合物内で生じた圧力を開放し;圧縮物質を粒状化することによって製造される。 | ||||||
| 40 | Methods of making and using composite materials and the composite materials | JP2003534357 | 2002-07-23 | JP2004522688A | 2004-07-29 | アガエブラヒム,モルテザ; フランシス,ラリー; エイ. ライリー,マイケル; ランガン,ティモシー; ロビンソン,ダブリュ.ダブリュ.フィル |
| 【解決手段】酸化物の如き反応性化合物から作られた複合材料を開示する。 該複合材料は、金属酸化物、リン酸塩及び反応性残留物質との反応生成物を含んでいる。 金属酸化物は、MgO、CaO、ZnO、TiO 2等を含んでいる。 リン酸塩は、リン酸一カリウム、リン酸一アンモニウム、リン酸一ナトリウム等を含むことができる。 反応性残留物質は、灰、リン酸塩粘土、リン酸塩残留スラリー、採鉱廃棄物等であってよい。 複合材料は、迅速補修用材料、プレキャスト構造、インサイチュー構造、混合物及びコーティングなどの多くの用途に用いることができる。 | ||||||
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