| 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 | 一种环保建筑材料及其制备工艺 | CN201610133345.3 | 2016-03-10 | CN105731971A | 2016-07-06 | 不公告发明人 |
| 本发明公开了一种环保建筑材料及其制备工艺,取下述重量配比的主要原料制备而成:石膏粉70?85,滑石粉25?40,硼酸锌3?6,绿茶10?16,聚酰胺树脂15?22,木质素磺酸钙8?16,阿拉伯胶6?14,磷酸三钠5?10,聚氨酯12?18,氢氧化镁3?8。本发明所得产品具有优异的粘结强度,良好的双向亲和性,优异的抗裂性能,防火阻燃性能好,具有良好的耐水性及优异的抗渗性,具有一定的耐碱性,具有良好的抗流挂性能,并且使涂料着色容易,色泽分布均匀,具有良好的施工性能和存贮稳定性,对环境友好,无毒、无异味,安全环保。 | ||||||
| 2 | 建筑垃圾回收利用技术及其工艺 | CN02136680.2 | 2002-08-27 | CN1398682A | 2003-02-26 | 韩路; 平剑; 高峻 |
| 本发明涉及一种将建筑垃圾回收利用的技术以及工艺,是将建筑垃圾回收分选后用于生产软基处理材料和其他建筑材料等。建筑垃圾回收利用技术及其工艺,先对建筑垃圾进行前期处理,通过破碎、分拣、回收可利用资源,并对可利用建筑垃圾进行固化处理。其中,所述的建筑垃圾的重量组分为:建筑垃圾50-85%、固化剂50-15%,固化剂由轻烧镁、卤片或卤粉、水和调整剂组成,该固化剂的各组份重量百分比为:轻烧镁52-58%、卤片或卤粉20-25%、水20-25%、调整剂0.1-0.5%。本发明将建筑垃圾处理、回收利用,固化为道路建材,变废为宝,利于环保。 | ||||||
| 3 | Process for rockwool derivative briquettes | US14070514 | 2013-11-02 | US09073238B2 | 2015-07-07 | Francis A. Lesters |
| A process for reusing rockwool production by-product into marketable bricks is disclosed. The process includes, in a brick forming facility, sequentially dumping incoming rockwool production by-product in a mixing bunker in a first direction, acquiring the rockwool production by-product from the mixing bunker in a second direction, and forming bricks with the mixed rockwool production by-product. Acquiring the rockwool production by-product in the second direction mixes the rockwool production by-product from two non-sequential dumps. | ||||||
| 4 | Building materials and methods of manufacture | US13463842 | 2012-05-04 | US08945295B2 | 2015-02-03 | Martin W. Brown |
| An article of manufacture comprising a building panel such as ceiling tile for example includes, in addition to any by-product perlite fines, additional perlite fines in an amount sufficient to improve the fire resistance of the building panel over the fire resistance of the building panel without the additional perlite fines. In one aspect, the additional perlite fines can comprise at least approximately 3.5% perlite fines by weight. In another aspect, the additional perlite fines can have an average diameter of approximately 23 microns or less. Methods of manufacture related to the building panel also are disclosed. | ||||||
| 5 | PROCESS FOR ROCKWOOL DERIVATIVE BRIQUETTES | US14070514 | 2013-11-02 | US20140159272A1 | 2014-06-12 | Francis A. Lesters |
| A process for reusing rockwool production by-product into marketable bricks is disclosed. The process includes, in a brick forming facility, sequentially dumping incoming rockwool production by-product in a mixing bunker in a first direction, acquiring the rockwool production by-product from the mixing bunker in a second direction, and forming bricks with the mixed rockwool production by-product. Acquiring the rockwool production by-product in the second direction mixes the rockwool production by-product from two non-sequential dumps. | ||||||
| 6 | BUILDING MATERIALS AND METHODS OF MANUFACTURE | US13463842 | 2012-05-04 | US20130291762A1 | 2013-11-07 | Martin W. Brown |
| An article of manufacture comprising a building panel such as ceiling tile for example includes, in addition to any by-product perlite fines, additional perlite fines in an amount sufficient to improve the fire resistance of the building panel over the fire resistance of the building panel without the additional perlite fines. In one aspect, the additional perlite fines can comprise at least approximately 3.5% perlite fines by weight. In another aspect, the additional perlite fines can have an average diameter of approximately 23 microns or less. Methods of manufacture related to the building panel also are disclosed. | ||||||
| 7 | BUILDING MATERIALS AND METHODS OF MANUFACTURE | EP13719000.5 | 2013-04-22 | EP2844623A1 | 2015-03-11 | BROWN, Martin, W. |
| An article of manufacture comprising a building panel such as ceiling tile for example includes, in addition to any by-product perlite fines, additional perlite fines in an amount sufficient to improve the fire resistance of the building panel over the fire resistance of the building panel without the additional perlite fines. In one aspect, the additional perlite fines can comprise at least approximately 3.5% perlite fines by weight. In another aspect, the additional perlite fines can have an average diameter of approximately 23 microns or less. Methods of manufacture related to the building panel also are disclosed. | ||||||
| 8 | Method of manufacturing a round polished bone material and round polished aggregate | JP2000162726 | 2000-05-31 | JP3348380B2 | 2002-11-20 | 勝巳 山本; 洋三 山本; 正 末松; 泰 柳川 |
| 9 | Lightweight multilayer solidified product containing a latent hydraulic particle | JP10909495 | 1995-04-10 | JP2863111B2 | 1999-03-03 | SEIKE SHOJI; IMAI OSAMU |
| 10 | Shape separation of aggregate and aggregate assemblage subjected to specific shape separation | JP13223193 | 1993-06-02 | JPH06340457A | 1994-12-13 | SAKAI KAZUTOMI |
| PURPOSE:To provide the method capable of separating aggregate by every shape thereof and the aggregate assemblage obtd. by this method. CONSTITUTION:A cylindrical vessel 1 which is formed with an aperture 2 for recovering the aggregate in its central part, is internally disposed with a spiral partition wall 3 around the aperture, is formed with the base 1a thereof and the inside surface 3a of the partition wall at specific roughness and has aggregate recovering chambers A to H attached with partitions in the peripheral part is used. The aggregate is charged between the aperture of the cylindrical vessel and the inside end of the partition wall. Vibrations in a vertical direction consisting of specific amplitude and vibration frequencies are applied to the cylindrical vessel. Such rotating motion that the central point of the cylindrical vessel draws a circular orbit on a horizontal plane is imparted to the cylindrical vessel to move the aggregate charged into the cylindrical vessel. The aggregate having the specific shapes is thus selectively recovered. | ||||||
| 11 | Cement hardened body, its manufacturing method and its use | JP2000009531 | 2000-01-18 | JP2001206755A | 2001-07-31 | SAKURAI SHOICHI |
| PROBLEM TO BE SOLVED: To utilize waste paper, pulp, etc., as new aggregate and to provide a method of manufacturing for conveniently obtaining a cement hardened body having high compressive strength required by the conventional concrete product in a short time at a low cost. SOLUTION: At least one kind of new aggregate selected from a group consisting of fibrous material, granular material of a volcanic rock, ash, sintering residue, resin powder material, glass powder material, cement and water are mixed to blend a tamping material, pressure and vibration are exerted on the mixture to solidify the whole tamping material, and a cement hardened body is manufactured. COPYRIGHT: (C)2001,JPO | ||||||
| 12 | Hardened cement material produced by using waste material and its production | JP13279099 | 1999-05-13 | JP2000302495A | 2000-10-31 | OSUGI TAKASHI; INOUE TAKESHI |
| PROBLEM TO BE SOLVED: To provide a hardened cement material safely produced from a waste material without necessitating much energy while suppressing the effluence of harmful substances in the waste material and provide its production process. SOLUTION: The objective hardened cement material is composed of a waste material containing water-soluble harmful substances and a carbonated hardened cement material containing the waste material. It can be produced by reacting carbon dioxide under pressure with a mixture of cement, water and a waste material containing water-soluble harmful substance or with a hardened product of the mixture. COPYRIGHT: (C)2000,JPO | ||||||
| 13 | Functional stone material for civil engineering/building | JP33344698 | 1998-11-09 | JP2000140797A | 2000-05-23 | KAWASHIMA TAKESHI; WATANABE KEIJI; ISOO NORIO; TAKAHASHI TATSUTO |
| PROBLEM TO BE SOLVED: To provide a material for civil engineering/building being a novel material for civil engineering/building capable of being used as a substitute for a concrete material or a brick, low in pH as compared with concrete, having excellent function as a vegetation base block of a land plant, excellent in water permeability and water absorbability and capable of being produced inexpensively. SOLUTION: A stone material contains slag generated in a steel manufacturing process as a raw material and is produced in a block or panel shape by solidifying powdery and/or granular slag being a main material by using CaCO3 formed by the carbonating reaction of CaO mainly contained in slag and has fine voids over the whole thereof. The void ratio of the stone material is 20-50% and a ratio of voids with a void size of 500 μm or more occupying in all of the voids of the stone material is desirably 20 vol.% or more. COPYRIGHT: (C)2000,JPO | ||||||
| 14 | Production of water-penetrating block | JP25094692 | 1992-09-21 | JPH06100382A | 1994-04-12 | MIYAZAKI MASAKAZU; TANIGUCHI KAZUKI; KITAMURA KAZU; MINAMI TOSHIMI; YAMAURA TAKESHI; KASUYA MAKOTO; OGATA KOJI |
| PURPOSE: To produce a water-penetrating block by effectively utilizing the off-specification product of a baked product obtained by the compression-molding and baking of the incineration ash of sewage sludge. CONSTITUTION: The block can be produced by baking a compression-molded product of incineration ash of sewage sludge, crushing the obtained block, mixing the crushed powder with 0.2-1.0wt.% of a forming organic binder adhesive to the crushed powder and 10-20wt.% of a sintering inorganic binder composed mainly of SiO 2, B 2O 3 and Na 2O, adding 10-30wt.%/DS of water to the mixture, compression-molding the mixture under a pressure of ≥200kgf/cm 2 and baking the molded product after drying. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 15 | 建築資材の製造方法 | JP2015510314 | 2013-04-22 | JP5996785B2 | 2016-09-21 | マーティン・ダブリュ・ブラウン |
| 16 | 建築資材及び製造方法 | JP2015510314 | 2013-04-22 | JP2015522728A | 2015-08-06 | マーティン・ダブリュ・ブラウン |
| 基本組成に加えて、追加的パーライト粒子の無い建築パネルの耐火性を超える、建築パネルの耐火性を改良するのに十分な量の任意の副産物パーライト粒子を含む、天井タイルといった建築パネルを含む製品。一態様においては、追加的パーライト粒子は少なくとも約3.5重量%のパーライト粒子を含むことができる。別の態様においては、追加的パーライト粒子は約23マイクロメートル以下の平均直径を有することができる。建築パネルに関連する製造方法もまた開示されている。【選択図】図1 | ||||||
| 17 | Polished round aggregate and its manufacturing method | JP2000162726 | 2000-05-31 | JP2001342046A | 2001-12-11 | YAMAMOTO YOZO; YAMAMOTO KATSUMI; SUEMATSU TADASHI; YANAGAWA YASUSHI |
| PROBLEM TO BE SOLVED: To provide a polished round aggregate which is made from an aggregate (a crushed stone or a blast furnace slag) for a concrete, and which is capable of improving the solid volume percentage, the flowability (so called the workability), decreasing the unit water content because of the round shape and the controlled water absorption, and is capable of enhancing the surface area and water permeability, when used for asphalt or roadbed material. SOLUTION: The surface of a ground aggregate obtained from the aggregate raw material is bonded to a fine sand (including a fine particle) with a cement to form a round-shape body with the fine sand surface layer which is formed to the polished surface. COPYRIGHT: (C)2001,JPO | ||||||
| 18 | Sulfur composition molding raw material and its manufacturing method | JP2000071193 | 2000-03-14 | JP2001261425A | 2001-09-26 | OSHIMA KIYOSHI; MISAKI NORIHIKO; NAGATA NORIFUMI |
| PROBLEM TO BE SOLVED: To obtain a sulfur composition molding raw material excellent in preservability, easy in handling, capable of yielding a good performance molding with an easy manufacturing operation and having excellent workability and to provide a manufacturing method of the raw material. SOLUTION: A solidified pellet consisting of sulfur and a filler is manufacturing by heating sulfur and a filler at about 120-160°C, mixing then at the same temperature, molding the heated mixture into a pellet like shape and cooling the product for solidification. COPYRIGHT: (C)2001,JPO | ||||||
| 19 | Method of producing porous solidified body by carbon dioxide fixation | JP2000069191 | 2000-03-13 | JP2001253785A | 2001-09-18 | ISOO NORIO; KATO MAKOTO; TAKAHASHI TATSUTO; NAKAJIMA HIROHISA |
| PROBLEM TO BE SOLVED: To make the amount of carbonation reaction at each part of a layer filled with a raw material uniform and to form many continuous open pores in a solidified body obtained by carbon dioxide fixation when a porous solidified body is produced by filling an un-carbonated Ca-containing raw material into a frame mold and blowing carbon dioxide into a layer filled with the raw material. SOLUTION: A method of producing a porous solidified body by carbon dioxide fixation is characterized in that carbon dioxide or a gas containing carbon dioxide is supplied into a layer filled with a raw material from nearly whole area of the surface of one or more frame molds and the gas is discharged from nearly whole area of each frame mold surface oppose to each frame mold surface of the gas supplying side. Thereby, as the flow of the gaseous carbon dioxide is made uniform and the direction of the gas flow is made uniform in the layer filled with the raw material, fluctuation the amount of carbonation reaction at each part of solidified body produced by carbon dioxide fixation is made small and a plurality of continuous open pores are formed in the direction of the gas flow. | ||||||
| 20 | Rock shed and/or snow shed | JP2000034395 | 2000-02-14 | JP2001226916A | 2001-08-24 | SHIMOYAMA YOSHIHIDE; KOYANAGI NAOAKI |
| PROBLEM TO BE SOLVED: To provide a rock shed and/or a snow shed, which has high shock resistance, in which foundation works are reduced, which has physical and chemical durability and in which maintenance is hardly required. SOLUTION: The rock shed and/or the snow shed is composed of a compound containing at least cement, a pozzolan fine powder, aggregate having grain size of 2 mm or less, water and a water reducing agent. | ||||||
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