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    • 1. 发明专利
    • Cement composition for grout and grouting material
    • 用于格栅和组合材料的水泥组合物
    • JP2006027937A
    • 2006-02-02
    • JP2004207195
    • 2004-07-14
    • Denki Kagaku Kogyo KkIshikawajima Constr Materials Co Ltd石川島建材工業株式会社電気化学工業株式会社
    • TAKAGI SATOSHIMORIOKA MINORUHIGUCHI TAKAYUKITAKAMATSU KATSUOSADATE SHIGEYUKIHASEGAWA SATOSHI
    • C04B28/02C04B7/345C04B18/14C04B22/02C04B22/08C04B22/14C04B24/06C04B24/32C04B111/70
    • Y02W30/94
    • PROBLEM TO BE SOLVED: To provide a cement composition for grout which can keep fluidity for a certain time, being excellent in early strength development and being excellent in size stability and to provide a grouting material using it.
      SOLUTION: The cement composition for grout contains a binding material, an accelerator containing a sulfate except calcium and the like, a polyether-based water superreducer and a coagulation controller consisting of an organic acid and the like. In the case of the cement composition for grout containing a granulated blast furnace slag and a gas foaming substance, the binding material comprises a 3CaO-SiO
      2 solid solution, a hydraulic material containing 11CaO-7Al
      2 O
      3 -CaF
      2 and anhydrous gypsum and a rapid curing material containing calcium aluminosilicate glass and anhydrous gypsum and contains them in a specific ratio. The grouting material is the mixture of the cement composition for grout, a fine aggregate and water. The rate of water to the binding material is favorably 35-45%.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够保持流动性一定时间,优异的早期强度显影和优异的尺寸稳定性的浆料的水泥组合物,并提供使用它的灌浆材料。 解决方案:用于水泥浆的水泥组合物含有粘合材料,除了钙等外的含硫酸盐的促进剂,聚醚类水超级再生剂和由有机酸等组成的凝结控制剂。 在含有粒状高炉矿渣和气体发泡物质的浆料的水泥组合物的情况下,粘合材料包含3CaO-SiO 2 SB固溶体,含有11CaO-7Al SB的固体水溶液, 2无机石膏和含有硅酸铝玻璃和无水石膏的快速固化材料,并以特定的比例含有它们。 灌浆材料是用于灌浆的水泥组合物,细骨料和水的混合物。 对粘合材料的水的比率优选为35-45%。 版权所有(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Concrete segment and its manufacturing method
    • 混凝土分段及其制造方法
    • JP2006062133A
    • 2006-03-09
    • JP2004245133
    • 2004-08-25
    • Ishikawajima Constr Materials Co Ltd石川島建材工業株式会社
    • DATE SHIGEYUKIHASEGAWA SATOSHI
    • B28B1/16B28B13/02E21D11/00E21D11/08
    • PROBLEM TO BE SOLVED: To provide a concrete segment and its manufacturing method to make it possible not only to make characteristics related to the specific function in the vicinity of the inner and outer peripheral surfaces of the concrete segment, for example, corrosion resistance and fire resistance variable but also to manufacture the concrete segment inexpensively and easily. SOLUTION: The protective layer 7 for forming the inner peripheral surface 4 of the concrete segment 1 is relatively provided in a thin-walled layered state and a relatively thick-walled concrete layer 8 is provided adjacent to a plate thickness direction. That is, protective mortar for forming the protective layer 7 is arranged in a form in a layered state to cast concrete for forming the concrete layer 8 in a semicured state and both layers are respectively cured, aged and demolded. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供一种混凝土段及其制造方法,不仅能够使与混凝土段的内外周面附近的特定功能相关的特性,例如腐蚀 电阻和耐火变量,而且还能够廉价和容易地制造混凝土段。 解决方案:用于形成混凝土段1的内周表面4的保护层7相对地设置在薄壁层状态中,并且相邻厚壁的混凝土层8邻近板厚度方向设置。 也就是说,用于形成保护层7的保护砂浆以分层状态布置成浇铸用于形成半固化状态的混凝土层8的混凝土,并且两层分别固化,老化和脱模。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Cement hardened body having open cell, and its production method
    • 具有开放细胞的水泥硬化体及其生产方法
    • JP2008115047A
    • 2008-05-22
    • JP2006300432
    • 2006-11-06
    • Ishikawajima Constr Materials Co Ltd石川島建材工業株式会社
    • DATE SHIGEYUKIHASEGAWA SATOSHI
    • C04B38/04C04B38/00
    • C04B28/02C04B38/04C04B2111/00284C04B2111/52C04B14/02C04B20/0048
    • PROBLEM TO BE SOLVED: To simplify a production process and easily control the size of an open cell in a cement hardened body having open cell and its production method.
      SOLUTION: The cement hardened body having open cell is produced by a production method, which comprises: a kneading stage S1 where a water soluble fiber dissolved in water at a fixed temperature or above is kneaded with cement, an aggregate and water at a temperature lower than the fixed temperature; a placing stage S2 where the kneaded product is placed in a molding flask; a curing stage S3 where the kneaded product is hardened at least till it self-stands in a state where the temperature of the kneaded product is held to the temperature lower than the fixed temperature, so as to form a self-standing hardened body, it is made into a high temperature state more than the fixed temperature, and the water soluble fiber is dissolved, thus, while open cells are formed, curing is performed; and a demolding stage S4 where the demolding is performed after the drying.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了简化生产过程并且容易控制具有开孔的水泥硬化体中的开孔的尺寸及其制造方法。 解决方案:具有开孔的水泥硬化体通过生产方法生产,该方法包括:将混合阶段S1溶解在固定温度以上的水中的水溶性纤维与水泥,骨料和水混合在一起 温度低于固定温度; 放置阶段S2,将捏合产物置于模型烧瓶中; 固化阶段S3,其中捏合产物在捏合产物的温度保持在低于固定温度的温度的状态下至少直到其自立时硬化,以便形成自立硬化体 被制成高于固定温度的高温状态,并且水溶性纤维被溶解,因此,当形成开孔时,进行固化; 以及在干燥后进行脱模的脱模工序S4。 版权所有(C)2008,JPO&INPIT
    • 8. 发明专利
    • Cement hardened body
    • 水泥硬化体
    • JP2006117452A
    • 2006-05-11
    • JP2004305571
    • 2004-10-20
    • Ishikawajima Constr Materials Co Ltd石川島建材工業株式会社
    • DATE SHIGEYUKIHASEGAWA SATOSHI
    • C04B28/02C04B14/16C04B16/04C04B16/06C04B18/22C04B111/30E04C2/04
    • Y02W30/96
    • PROBLEM TO BE SOLVED: To eliminate, in cement hardened body, the fear of its deterioration with time such as corrosion and the fear of the occurrence of cracking when nailing in spite of having high strength.
      SOLUTION: The cement hardened body 1 is formed by kneading hydraulic cement, hollow fine aggregate 3, water and organic fiber 5 as an admixture, placing it into a form, and hardening it. Wherein the hollow fine aggregate 3 is formed into a hollow body having a nearly spherical form which is composed of a brittle material, and is reinforced in tensile strength by blending it with organic fiber 5. Whereby even when the nail 2 or the like is driven into the cement hardened body 1, the hollow fine aggregate 3 is easily crushed, its crushed pieces and crushed pieces of the cementitious part 4 are pushed into the space within the hollow body as crushed pieces 3a and the stress is mitigated, and thereby the cracking is prevented together with the action of the organic fiber 5.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了消除在水泥硬化体中,尽管具有高强度,但是当钉扎时,除了腐蚀和恐惧发生龟裂之外,还会受到时间的恶化。 解决方案:水泥硬化体1通过混合水硬性水泥,中空细骨料3,水和有机纤维5作为混合物,将其置于一种形式中并使其硬化而形成。 其中,中空细骨料3形成为由脆性材料构成的近似球形的中空体,并且通过与有机纤维5混合而被拉伸强度增强。即使当钉子2等被驱动时 进入水泥硬化体1时,中空的细骨料3容易被粉碎,其破碎件和破碎件4被压入中空体内的空间,作为破碎件3a,应力减轻,从而破裂 与有机纤维5的作用一起被防止。版权所有(C)2006,JPO&NCIPI
    • 9. 发明专利
    • Method for manufacturing composite structure
    • 制造复合结构的方法
    • JP2003326512A
    • 2003-11-19
    • JP2002140734
    • 2002-05-15
    • Ishikawajima Constr Materials Co Ltd石川島建材工業株式会社
    • MUROGA YOICHIRODATE SHIGEYUKIHASEGAWA SATOSHIWAKABAYASHI MASANORI
    • B28B23/02
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a composite structure which can improve a strength without sectional defect by sufficiently adhering a padding material in a frame and which facilitates the performance. SOLUTION: The method for manufacturing the composite structure comprises the steps of superposing a mesh member 5 having a fine mesh of a lower side on the lower surface of a frame plate (top end plate) 1a of the frame 1 and a mesh member 6 having a rough mesh of an upper side, installing the members, then filling the padding material 2 in a closed space E from a padding material introducing hole 7 via a hose 3 by a filling unit until the material 2 is fully filled in the member 5 part of the fine mesh, and thereafter injecting a grout in the member 6 part of the rough mesh. Bubbles (air) floated through vent holes of the member 5 directly under the plate 1a is removed out of the frame 1 by injecting the grout material in the member 6 part during a period until the material 2 is fully filled in the space E. Thus, the composite structure in which the integrity is enhanced without bubble in a boundary between the frame 1 and the material 2 can be manufactured. COPYRIGHT: (C)2004,JPO
    • 解决的问题:提供一种复合结构体的制造方法,该复合结构体能够通过充分地将衬垫材料粘附在框架中并且有利于性能而能够提高强度而没有缺陷。 解决方案:复合结构的制造方法包括以下步骤:在框架1的框架板(顶端板)1a的下表面上叠加具有下侧的细网的网状构件5和网状物 具有上侧粗网的构件6,安装构件,然后通过填充单元经由软管3从衬垫材料导入孔7将填充材料2填充在封闭空间E中,直到材料2完全填充到 将该部分5部分的细网,然后将浆料注入粗网的构件6部分。 通过直接在板1a下面的构件5的通气孔浮动的气泡(空气)通过在一段时间内将浆料材料注入构件6部分中而被排出框架1,直到材料2完全填充在空间E中。因此 可以制造其中在框架1和材料2之间的边界中没有气泡增强的完整性的复合结构。 版权所有(C)2004,JPO
    • 10. 发明专利
    • Laser type displacement measurement device and dimension variation measurement method using it
    • 激光类型位移测量装置和使用其的尺寸变化测量方法
    • JP2008116352A
    • 2008-05-22
    • JP2006300433
    • 2006-11-06
    • Ishikawajima Constr Materials Co Ltd石川島建材工業株式会社
    • DATE SHIGEYUKIHASEGAWA SATOSHI
    • G01C3/06G01B11/02
    • PROBLEM TO BE SOLVED: To keep high measurement accuracy even if the environment around a specimen varies, in a laser type displacement measurement device and dimension variation measurement method using it.
      SOLUTION: The laser type displacement measurement device 2 comprises a laser type displacement sensor 8 that emits emission light 9a from an emission section to a concrete test piece 5 having a displacement measurement plate 6 at an end, receives reflected light 9b with a light receiving section, and measures the distance to the displacement measurement plate 6, and a cover case 10 having a tubular section 10a for covering the space from the emission section and the light receiving section of the laser type displacement sensor 8 to the proximity of the displacement measurement plate 6. Then, the dimension variation of the concrete test piece 5 is measured using the laser type displacement measurement device 2.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:即使在试样周围的环境发生变化的情况下,也可以使用激光式位移测量装置和尺寸变化测量方法来保持高的测量精度。 解决方案:激光型位移测量装置2包括激光器位移传感器8,其从发射部分发射发射光9a到具有位移测量板6的混凝土测试片5,在一端接收反射光9b 光接收部分,并且测量到位移测量板6的距离;以及盖壳体10,其具有管状部分10a,用于将激光型位移传感器8的发射部分和光接收部分的空间覆盖到 位移测量板6.然后,使用激光型位移测量装置2测量混凝土试件5的尺寸变化。版权所有(C)2008,JPO&INPIT