| 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 | 一种石灰质飞机越界捕获材料及其制备工艺 | CN201510905341.8 | 2015-12-10 | CN105503107B | 2017-11-10 | 朱晓燕 |
| 本发明涉及一种石灰质飞机越界捕获材料及其制备工艺,石灰质飞机越界捕获材料由生石灰粉、稳泡材料、水和发泡剂按比例混合,混合后通过多次成分转化及还原而制得;该石灰质飞机越界捕获材料的制备工艺是将生石灰粉、稳泡材料、水在高速搅拌机中快速搅拌成均匀的料浆,快速引入气体,并搅拌成均匀的轻质料浆,通过比例的发泡剂引入大量气体使料浆轻量化,再经熟化工艺和增压碳化工艺,使原材料由生石灰,重新转化为与石灰石同成分的碳酸钙的轻质块状固体。通过本发明所述工艺制备的捕获材料的强度稳定性好、溃缩强度好、表观密度高,且难燃又耐久,环保性能好。 | ||||||
| 2 | 耐热混凝土制作方法 | CN201611159929.4 | 2016-12-15 | CN106587689A | 2017-04-26 | 鲜中菊; 杨志远; 邓梅艳; 蓝静 |
| 本发明公开一种耐热混凝土制作方法,尤其是一种涉及废弃资源再利用技术领域的耐热混凝土制作方法。本发明提供一种可以有效保护环境,显著降低生产成本,产品物理力学性能高的耐热混凝土制作方法,包括以下几个步骤:A、筛选高钛型渣砂和碎石;B、将筛选后得到的砂石作为混凝土的骨料配制耐热混凝土,得到的混凝土块;C、对混凝土块进行煅烧。本申请利用高钛型渣砂碎石作耐热混凝土骨料,制作耐热混凝土,这样不仅可大幅降低成本,拓宽高钛型渣砂碎石的使用领域,提高耐热混凝土的物理力学性能,突破混凝土这种区域性建材的区域性限制,完全代替陶粒,减少陶粒的开采,保护生态环境,使这种工业废料变为具有较高利用价值的优质建材。 | ||||||
| 3 | 用于钢筋混凝土中钢筋保护的方法 | CN01804268.6 | 2001-01-26 | CN1258498C | 2006-06-07 | G·K·格拉斯; B·雷迪; N·R·比恩菲尔德; R·F·维勒斯 |
| 本发明提供具有改进耐腐蚀性的钢筋混凝土,其中混凝土中在钢筋表面的空隙含量小于0.8%,优选小于0.5%,更优选小于0.2%的钢面积和其中在钢表面存在固体碱的层,优选厚度至少为一微米。钢筋混凝土的氯化物阈值水平为水泥的至少0.5wt%,优选至少0.8wt%。本发明也提供一种降低混凝土中钢筋腐蚀的方法,该方法包括形成钢筋混凝土,其中在钢表面的空隙小于0.5体积%和在钢表面存在固体碱的层,该层的厚度为至少1微米和覆盖钢表面的至少20%。 | ||||||
| 4 | 用于钢筋混凝土中钢筋保护的方法 | CN01804268.6 | 2001-01-26 | CN1398243A | 2003-02-19 | G·K·格拉斯; B·雷迪; N·R·比恩菲尔德; R·F·维勒斯 |
| 本发明提供具有改进耐腐蚀性的钢筋混凝土,其中混凝土中在钢筋表面的空隙含量小于0.8%,优选小于0.5%,更优选小于0.2%的钢面积和其中在钢表面存在固体碱的层,优选厚度至少为一微米。钢筋混凝土的氯化物阈值水平为水泥的至少0.5wt%,优选至少0.8wt%。本发明也提供一种降低混凝土中钢筋腐蚀的方法,该方法包括形成钢筋混凝土,其中在钢表面的空隙小于0.5体积%和在钢表面存在固体碱的层,该层的厚度为至少1微米和覆盖钢表面的至少20%。 | ||||||
| 5 | 一种单组份愈合胶囊和自愈合混凝土 | CN201710067705.9 | 2017-02-07 | CN106747653A | 2017-05-31 | 胡相明; 胡尊翔; 吴明跃; 程卫民; 赵艳云 |
| 本发明提供一种单组份愈合胶囊和自愈合混凝土。本发明提供的单组份愈合胶囊包括囊壁、封堵于所述囊壁敞口处的封堵材料和封堵于所述囊壁中的单组份愈合剂,所述单组份愈合剂包括聚氨酯和稀释剂。本发明提供的单组份愈合胶囊以聚氨酯和稀释剂的混合物作为愈合剂,通过稀释剂的稀释改变了聚氨酯的分子间作用力,使其具有良好流动性,在胶囊破裂后愈合剂可以在裂缝内均匀流动并在一定时间内固化胶结。实验结果表明,本发明提供的单组份愈合胶囊破裂后,愈合剂能够被均匀释放到裂缝中,与混凝土胶结实现对裂缝的愈合,两个胶囊破裂一天后愈合效率可达32.2%,两天后愈合效率可达77.6%,三天后愈合效率可达75.2%。 | ||||||
| 6 | 一种石灰质飞机越界捕获材料及其制备工艺 | CN201510905341.8 | 2015-12-10 | CN105503107A | 2016-04-20 | 朱晓燕 |
| 本发明涉及一种石灰质飞机越界捕获材料及其制备工艺,石灰质飞机越界捕获材料由生石灰粉、稳泡材料、水和发泡剂按比例混合,混合后通过多次成分转化及还原而制得;该石灰质飞机越界捕获材料的制备工艺是将生石灰粉、稳泡材料、水在高速搅拌机中快速搅拌成均匀的料浆,快速引入气体,并搅拌成均匀的轻质料浆,通过比例的发泡剂引入大量气体使料浆轻量化,再经熟化工艺和增压碳化工艺,使原材料由生石灰,重新转化为与石灰石同成分的碳酸钙的轻质块状固体。通过本发明所述工艺制备的捕获材料的强度稳定性好、溃缩强度好、表观密度高,且难燃又耐久,环保性能好。 | ||||||
| 7 | Heat treatment of insulating unwoven products formed of vitreous fibers | US3508891D | 1966-06-20 | US3508891A | 1970-04-28 | PAYMAL JEAN |
| 8 | Photograph device | US3460282D | 1967-03-30 | US3460282A | 1969-08-12 | SWIRSKY GORDON L |
| 9 | BUILDING MATERIAL AND METHOD FOR PRODUCING BUILDING MATERIAL | US15716976 | 2017-09-27 | US20180086023A1 | 2018-03-29 | Satoshi IKEDA; Yoshinobu KOSASA |
| Provided is a building material that is lightweight, exhibits excellent formability, and is inhibited from being damaged during transportation, and a method for producing the same. Specifically, provided is a method for producing a building material, including: a first step of curing a core layer material including a hydraulic material, a silica-containing material, and an aluminum powder, to react the aluminum powder and form bubbles, and incompletely hardening the hydraulic material and the silica-containing material, to form a foamed core layer; a second step of dispersing a surface layer material including a hydraulic material, and a silica-containing material, to form an unfoamed surface layer; a third step of stacking the foamed core layer on the unfoamed surface layer, to form a stack including the unfoamed surface layer and the foamed core layer; and a fourth step of pressing and curing the stack, and a building material produced therewith. | ||||||
| 10 | METHOD AND APPARATUS FOR FORMING ENGINEERED STONE | US15225520 | 2016-08-01 | US20170253533A1 | 2017-09-07 | Alex Xie |
| A compression device, means for controlling the compression device, a drum having an inner chamber, means for rotating the drum, and first and second delivery devices for delivering first and second materials into the inner chamber of the drum while the drum is rotating. The compression device compresses the first and second material in the inner chamber of the drum while the drum is rotating about the center of the drum in response to the means for controlling the compression device. The apparatus may include a stirring device; and a means for controlling the stirring device; wherein the stirring device is configured with respect to the drum so that the stirring device can be moved up and down to a desired depth within the drum and rotates within the inner chamber of the drum to stir the first and second materials in the drum while the drum is rotating. | ||||||
| 11 | Method for marking a substrate | US13163864 | 2011-06-20 | US08900803B2 | 2014-12-02 | Christopher Alston; Greg Brunton; Peter Pagones; Joseph Sanegor |
| The present invention relates to methods for marking a substrate. In particular, the present invention relates to methods for applying visual indicia to a substantially cementitious substrate in the form of a cementitious building product. The method comprising the steps of: irradiating a surface of said substantially cementitious substrate for a sufficient time and with sufficient energy to at least partially vitrify said surface thereby marking said substrate. | ||||||
| 12 | Method for Marking a Substrate | US13163864 | 2011-06-20 | US20120021194A1 | 2012-01-26 | Christopher Alston; Greg Brunton; Peter Pagones; Joseph Sanegor |
| The present invention relates to methods for marking a substrate. In particular, the present invention relates to methods for applying visual indicia to a substantially cementitious substrate in the form of a cementitious building product. The method comprising the steps of: irradiating a surface of said substantially cementitious substrate for a sufficient time and with sufficient energy to at least partially vitrify said surface thereby marking said substrate. | ||||||
| 13 | Process for the protection of reinforcement in reinforced concrete | US10182377 | 2002-10-02 | US06685822B2 | 2004-02-03 | Nicholas Robert Buenfeld; Gareth Kevin Glass; Bharti Reddy; Robert Franklyn Viles |
| The invention provides a reinforced concrete having improved corrosion resistance in which the content of voids in the concrete at the surface of the steel reinforcement is below 0.8%, preferably below 0.5%, more preferably below 0.2% by area of steel and in which there is a layer of solid alkali, preferably at least one micron in thickness on the steel surface. The reinforced concrete preferably has a chloride threshold level of at least 0.5% preferably at least 0.8% by weight of the cement. The invention also provides a process for reducing corrosion of steel reinforcement in concrete which comprises forming a reinforced concrete in which the voids at the steel surface are below 0.5% by volume and in which there is a layer of solid alkali on the steel surface the layer being at least 1 micron in thickness and covering at least 20% of the steel surface. | ||||||
| 14 | 断熱成形体を製造する方法 | JP2017552937 | 2016-03-31 | JP2018518436A | 2018-07-12 | マティアス ガイスラー; フランク メンツェル |
| 親水性シリカ含有断熱成形体をアンモニアで処理することを含む、アンモニアで処理された親水性断熱成形体を製造する方法において、断熱成形体をチャンバー内に導入し、かつ差圧Δp≧20mbarになるまでガス状アンモニアを供給する方法。アンモニアで処理された親水性断熱成形体を有機ケイ素化合物で処理することを含む、疎水性シリカ含有断熱成形体を製造する方法。 | ||||||
| 15 | セメント硬化体を有する物質の製造方法 | JP2013089660 | 2013-04-22 | JP2014214030A | 2014-11-17 | KITAGAKI RYOMA; NOGUCHI TAKAFUMI; KIM HAN-SIC |
| 【課題】短時間、低コスト、省エネルギーで、セメント硬化体を有する物質を高品質化する方法の提供。【解決手段】セメント硬化体を有する物質であって該物質がi)高密度、ii)高炭酸カルシウム量、iii)低空隙率、及び/又はiv)低吸水率化、のうちの少なくとも1種を有する物質の製造方法であって、1)炭酸バブル水を準備する工程;及び2)炭酸バブル水を、セメント硬化体を有する物質に導入する第1の炭酸バブル水導入工程;を有することにより、上記特性i)〜iv)のうちの少なくとも1種を有する物質を得る方法により、上記課題を解決する。【選択図】なし | ||||||
| 16 | Method of manufacturing a reinforcing material in reinforced concrete | JP2001555004 | 2001-01-26 | JP2003520718A | 2003-07-08 | ヴィルス,ロバート,フランクリン; グラス,ギャレス,ケビン; ブーンフェルド,ニコラス,ロバート; レディー,バーティ |
| (57)【要約】 本発明は、鋼材強化材の表面にてコンクリートにおけるボイドの含有量が鋼材の面積にて0.8%未満、好ましくは0.5%未満、より好ましくは0.2%未満であると共に、好ましくは鋼材表面に少なくとも厚さ1μmの密実アルカリの層が存在することを特徴とする向上した腐食耐性を有する強化コンクリートを提供する。 強化コンクリートは好ましくはセメントの少なくとも0.5重量%、好ましくは少なくとも0.8重量%のクロライド閾値レベルを有する。 さらに本発明はコンクリートにおける鋼材強化材の腐食を減少させる方法をも提供し、この方法は鋼材表面におけるボイドが0.5容量%未満であると共に鋼材表面に密実アルカリの層が存在し、この層が少なくとも厚さ1μmであると共に鋼材表面の少なくとも20%を覆う強化コンクリートを形成させることを特徴とする。 | ||||||
| 17 | Processed slabs, and systems and methods related thereto | US15045958 | 2016-02-17 | US10105868B2 | 2018-10-23 | Jon Louis Grzeskowiak, II; Martin E. Davis |
| This document describes systems and processes for forming synthetic molded slabs, which may be suitable for use in living or working spaces (e.g., along a countertop, table, floor, or the like). | ||||||
| 18 | METHOD FOR PRODUCING A MOLDED HEAT-INSULATING ELEMENT | US15565288 | 2016-03-31 | US20180065892A1 | 2018-03-08 | Matthias GEISLER; Frank MENZEL |
| A process for producing an ammonia-treated hydrophilic thermal insulation molding which includes treating a thermal insulation molding containing hydrophilic silica with ammonia by introducing the thermal insulation molding into a chamber and supplying gaseous ammonia until a pressure difference Δp of ≧20 mbar is achieved. A process for producing a thermal insulation molding containing hydrophobic silica which includes treating the ammonia-treated hydrophilic thermal insulation molding with an organosilicon compound. | ||||||
| 19 | Method and apparatus for forming engineered stone | US15059034 | 2016-03-02 | US09427896B1 | 2016-08-30 | Alex Xie |
| A compression device, means for controlling the compression device, a drum having an inner chamber, means for rotating the drum, and first and second delivery devices for delivering first and second materials into the inner chamber of the drum while the drum is rotating. The compression device compresses the first and second material in the inner chamber of the drum while the drum is rotating about the center of the drum in response to the means for controlling the compression device. The apparatus may include a stirring device; and a means for controlling the stirring device; wherein the stirring device is configured with respect to the drum so that the stirring device can be moved up and down to a desired depth within the drum and rotates within the inner chamber of the drum to stir the first and second materials in the drum while the drum is rotating. | ||||||
| 20 | SYNTHETIC MOLDED SLABS, AND SYSTEMS AND METHODS RELATED THERETO | US15045958 | 2016-02-17 | US20160221227A1 | 2016-08-04 | Jon Louis Grzeskowiak, II; Martin E. Davis |
| This document describes systems and processes for forming synthetic molded slabs, which may be suitable for use in living or working spaces (e.g., along a countertop, table, floor, or the like). | ||||||
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