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公开(公告)号:US3436235A
公开(公告)日:1969-04-01
申请号:US3436235D
申请日:1967-10-26
申请人: EUTECTIC ENG CO
CPC分类号: B22C1/183 , C04B40/0096 , C04B28/24
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公开(公告)号:US09789628B2
公开(公告)日:2017-10-17
申请号:US15029804
申请日:2014-09-30
发明人: Byong-Wa Chun , Kati Hazrati , Eric P. Koehler , Romain Faivre
CPC分类号: B28C7/022 , B28C7/12 , C04B26/18 , C04B28/02 , C04B40/0032 , C04B40/0096 , C04B24/2647 , C04B2103/32
摘要: The present invention provides a fast response method and system wherein one or more comb-type polycarboxylate ether (PCE) polymers, having a cumulative absorptivity coefficient in the range of 40%-75%, are employed as fluidizing admixtures dosed into concrete by and in automated slump monitoring and control systems which iteratively monitors and adjusts the slump of the concrete mix.
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公开(公告)号:US20170284996A1
公开(公告)日:2017-10-05
申请号:US15474175
申请日:2017-03-30
CPC分类号: G01N33/383 , B28B23/0031 , B28C7/02 , C04B40/0096 , G01N17/04 , G01N27/048 , G01N2203/0092
摘要: Concrete can be one of the most durable building materials where consumption is projected to reach approximately 40 billion tons in 2017 alone. Despite this the testing of concrete at all stages of its life cycle is still in its infancy although testing for corrosion is well established. Further many of the tests today are time consuming, expensive, and provide results only after it has been poured and set. Accordingly, by exploiting self-contained wireless sensor devices, which are deployed with the wet concrete, the in-situ curing and maturity measurement data can be established and employed together with batch specific concrete data to provide rapid initial tests and evolving performance data regarding the concrete cure, performance, corrosion of concrete at different points in its life cycle. Such sensors remove subjectivity, allow for rapid assessment, are integrable to the construction process, and provided full life cycle assessment.
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公开(公告)号:US09751812B2
公开(公告)日:2017-09-05
申请号:US14292334
申请日:2014-05-30
申请人: Elwha LLC
发明人: Jeffrey A. Bowers , Bran Ferren , W. Daniel Hillis , Roderick A. Hyde , Jordin T. Kare , Cameron A. Myhrvold , Conor L. Myhrvold , Nathan P. Myhrvold , Thomas J. Nugent, Jr. , Tony S. Pan , Clarence T. Tegreene , David B. Tuckerman , Lowell L. Wood, Jr.
IPC分类号: C04B28/02 , C04B40/00 , G01N33/38 , C04B103/54
CPC分类号: C04B40/0096 , C04B28/02 , C04B2103/54 , G01N33/383 , C04B14/06 , C04B20/0048 , C04B20/008 , C04B2103/0014 , C04B20/10
摘要: A traceable cement mixture includes a volume of cementitious material and a taggant disposed within the volume of cementitious material. The taggant includes data relating to a characteristic of the volume of cementitious material.
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公开(公告)号:US20170044062A1
公开(公告)日:2017-02-16
申请号:US14824780
申请日:2015-08-12
发明人: Tyler KINCAID , Charles J. MILLER
CPC分类号: C04B16/00 , C04B14/10 , C04B14/185 , C04B26/06 , C04B28/00 , C04B28/14 , C04B2111/00672 , C04B2111/807 , E04F21/026 , G01N21/64 , G01N21/643 , G01N21/6447 , G01N33/383 , Y10T436/13 , C04B24/20 , C04B40/0096 , C04B2103/44 , C04B2103/54
摘要: A method of making an identifiable gypsum-based building product, includes incorporating a suitable amount of an optically identifiable marker into the product to be sensed by a conventional detecting device; applying the product with the marker in a conventional manner in the course of building construction, creating a finished building product; and analyzing the finished building product and optically detecting the presence of the marker in real time onsite.
摘要翻译: 一种制造可鉴定的基于石膏的建筑产品的方法,包括将合适量的可光学识别的标记掺入待由常规检测装置感测的产品中; 在建筑施工过程中以传统的方式将产品与标记物一起使用,形成成品建筑产品; 并分析完成的建筑产品,并现场实时光学检测标记的存在。
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公开(公告)号:US20160061806A1
公开(公告)日:2016-03-03
申请号:US14778328
申请日:2014-03-20
申请人: HALOK PTY LTD
发明人: Andrew Wilfred Reid , Zuhua Zhang
IPC分类号: G01N33/38 , C04B12/00 , G01N23/207
CPC分类号: G01N33/383 , C04B12/005 , C04B40/0096 , G01N23/207 , G01N33/442 , Y02P40/165 , C04B28/006
摘要: The present invention relates, inter alia, to method of assessing the reactivity of a polymerizable material (especially an aluminosilicate) in forming a geopolymer. The present invention also relates to methods of forming a geopolymer, and to geopolymers formed by the method. The method of assessing the reactivity of the polymerizable material may include first assessing whether the polymerizable material is layered or particulate. Next, if the polymerizable material is layered, the method may include measuring the moles of polymerization network forming elements in an amount of polymerizable material, whereby the moles of polymerization network forming elements is indicative of the reactivity of the polymerizable material in forming a geopolymer. Alternatively, if the polymerizable material is particulate, the method may include measuring the molar charge of polymerization network modifiers in an amount of polymerizable material, whereby the molar charge of polymerization network modifiers is indicative of the reactivity of the polymerizable material in forming a geopolymer.
摘要翻译: 本发明尤其涉及评估可聚合材料(特别是铝硅酸盐)在形成地质聚合物中的反应性的方法。 本发明还涉及形成地质聚合物的方法以及通过该方法形成的地质聚合物。 评价可聚合材料的反应性的方法可以包括首先评估可聚合材料是层状还是颗粒状。 接下来,如果可聚合材料层叠,则该方法可以包括以可聚合材料的量测量聚合网络形成元件的摩尔数,由此聚合网络形成元素的摩尔数表示可聚合材料在形成地质聚合物中的反应性。 或者,如果可聚合材料是颗粒,则该方法可以包括以可聚合材料的量测量聚合网络改性剂的摩尔电荷,由此聚合网络改性剂的摩尔电荷表示可聚合材料在形成地质聚合物中的反应性。
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67.发明授权Casting mold composition with improved detectability for inclusions and method of casting 有权具有改善夹杂物的可检测性和铸造方法的铸模组合物公开(公告)号:US09186719B2
公开(公告)日:2015-11-17
申请号:US14077820
申请日:2013-11-12
CPC分类号: B22C1/02 , B22C1/181 , B22C9/04 , B22C9/12 , C04B28/06 , C04B40/0096 , C04B2111/00215 , C04B2111/00879 , C04B2111/00939 , G01N23/20 , C04B14/303 , C04B14/304 , C04B14/305 , C04B22/04
摘要: A titanium-containing article casting mold composition includes calcium aluminate and an X-ray or Neutron-ray detectable element. A method for detecting sub-surface ceramic inclusions in a titanium or titanium alloy casting includes combining calcium aluminate, an element more radiographically dense than the calcium aluminate, and a liquid to form a slurry; forming a mold having the calcium aluminate and the radiographically dense element from the slurry; introducing a titanium aluminide-containing metal to the radiographically dense element-bearing mold; solidifying the titanium aluminide-containing metal to form an article in the mold; removing the solidified titanium aluminide-containing metal article from said mold; subjecting the solidified titanium aluminide-containing article to radiographic inspection to provide a radiograph; and examining the radiograph for the presence of the radiographically dense element on or in the article.
摘要翻译: 含钛制品铸模组合物包括铝酸钙和X射线或中子射线可检测元素。 用于检测钛或钛合金铸件中的次表面陶瓷夹杂物的方法包括将铝酸钙,比铝酸钙更放射致密的元素和液体组合以形成浆料; 从所述浆料形成具有所述铝酸钙和所述放射致密元件的模具; 将含钛铝化物的金属引入到放射致密元件承载模具中; 固化含铝化铝的金属以在模具中形成制品; 从所述模具中除去固化的含铝化铝的金属制品; 对固化的含铝化铝的制品进行射线照相检查以提供放射照相; 并检查放射照相中在物品上或物品中是否存在放射线密集元件。
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68.发明授权Spectral method for determining the source of expanded vermiculite insulation in attics and walls 有权用于确定阁楼和墙壁中膨胀蛭石绝缘源的光谱法公开(公告)号:US08751169B1
公开(公告)日:2014-06-10
申请号:US13247682
申请日:2011-09-28
CPC分类号: C04B14/20 , C04B14/202 , C04B14/38 , C04B40/0096 , G01N21/359 , Y10T428/24008 , C04B14/204
摘要: A method for identifying the source of vermiculite insulation in situ using a portable spectrometer with a light-emitting contact probe and a personal computer. Identification is accomplished using NIR reflectance spectroscopy and absorption band depth ratios to differentiate between vermiculite sources and to test for the presence of amphibole, talc, or serpentine contaminants in vermiculite insulation.
摘要翻译: 一种使用便携式光谱仪与发光接触探针和个人计算机来原位识别蛭石绝缘源的方法。 使用近红外反射光谱和吸收带深度比率来鉴别蛭石源,并测试蛭石绝缘中闪石,滑石或蛇纹石污染物的存在。
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69.发明授权Casting mold composition with improved detectability for inclusions and method of casting 有权具有改善夹杂物的可检测性和铸造方法的铸模组合物公开(公告)号:US08579013B2
公开(公告)日:2013-11-12
申请号:US13250726
申请日:2011-09-30
CPC分类号: B22C1/02 , B22C1/181 , B22C9/04 , B22C9/12 , C04B28/06 , C04B40/0096 , C04B2111/00215 , C04B2111/00879 , C04B2111/00939 , G01N23/20 , C04B14/303 , C04B14/304 , C04B14/305 , C04B22/04
摘要: The present disclosure relates to a titanium-containing article casting mold composition comprising calcium aluminate and an X-ray or Neutron-ray detectable element. Furthermore, present embodiments teach a method for detecting sub-surface ceramic inclusions in a titanium or titanium alloy casting by combining calcium aluminate, an element more radiographically dense than the calcium aluminate, and a liquid to form a slurry; forming a mold having the calcium aluminate and the radiographically dense element from the slurry; introducing a titanium aluminide-containing metal to the radiographically dense element-bearing mold; solidifying said titanium aluminide-containing metal to form an article in the mold; removing the solidified titanium aluminide-containing metal article from said mold; subjecting the solidified titanium aluminide-containing article to radiographic inspection to provide a radiograph; and examining said radiograph for the presence of the radiographically dense element on or in the article.
摘要翻译: 本公开内容涉及包含铝酸钙和X射线或中子线可检测元素的含钛制品铸模组合物。 此外,本实施例教导了通过组合铝酸钙(比铝酸钙更放射致密的元素)和液体以形成浆料来检测钛或钛合金铸件中的亚表面陶瓷夹杂物的方法; 从所述浆料形成具有所述铝酸钙和所述放射致密元件的模具; 将含钛铝化物的金属引入到放射致密元件承载模具中; 固化所述含钛化铝的金属以在模具中形成制品; 从所述模具中除去固化的含铝化铝的金属制品; 对固化的含铝化铝的制品进行射线照相检查以提供放射照相; 并且在物品上或者物品上检查放射线照相下是否存在放射线密集元件。
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公开(公告)号:US20130109597A1
公开(公告)日:2013-05-02
申请号:US13285622
申请日:2011-10-31
CPC分类号: C09K8/62 , C04B40/0096 , C09K8/03 , C09K8/467 , C09K8/60 , C09K2208/10
摘要: The present invention relates to nanoparticle smart tags and the use of nanoparticle smart tags in the detection of analyte. In particular, the present invention relates to nanoparticle smart tags that may be used in subgeologic formations to detect analytes of interest in real-time. One embodiment of the present invention provides a suspension having a nanoparticle smart tag analyte complex formed by an interaction having a nanoparticle smart tag and an analyte; and a subterranean treatment fluid.
摘要翻译: 本发明涉及纳米颗粒智能标签和纳米颗粒智能标签在分析物检测中的应用。 特别地,本发明涉及可用于地下地层以实时检测感兴趣的分析物的纳米颗粒智能标签。 本发明的一个实施方案提供了具有通过具有纳米颗粒智能标签和分析物的相互作用形成的纳米颗粒智能标签分析物复合物的悬浮液; 和地下处理流体。
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