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    • 3. 发明申请
    • Embedded barrier to fluid flow
    • 嵌入式流体流动屏障
    • US20080010939A1
    • 2008-01-17
    • US11901897
    • 2007-09-19
    • Michael McInerneySean MorefieldVincent HockPhilip MaloneCharles Weiss
    • Michael McInerneySean MorefieldVincent HockPhilip MaloneCharles Weiss
    • E04B1/66
    • E04B5/00
    • A method for implementing a barrier to fluid passage in which the barrier is embedded within, instead of atop, porous material. This retains the durability of the surface of the porous material. In one embodiment, a thin set mortar is applied to a concrete slab. A pleated metal foil is pressed into the wet mortar and a bond is established. The mortar is allowed to set and a top, or finish, section of concrete is then poured over the foil and finished conventionally. Provisions are made for sealing expansion joints in concrete slab floors and at the juncture of floor and wall. The foil may be provided in multiple layers to provide a mechanical bond via the mortar oozing through perforations or along pleats in each of the top and bottoms layers, while providing a solid layer through which a fluid will not pass, at least in one direction.
    • 用于实现流体通道的屏障的方法,其中屏障嵌入在多孔材料中,而不是顶部。 这保持了多孔材料的表面的耐久性。 在一个实施例中,将薄的固定砂浆施加到混凝土板。 将打褶的金属箔压入湿砂浆中并建立粘结。 允许砂浆固定,然后将混凝土的顶部或完成部分倒在箔上并按常规完成。 规定混凝土板地板和地板和墙壁交界处的密封膨胀节。 箔可以设置在多层中,以通过穿透孔或通过顶部和底部层中的每一个中的褶皱的砂浆提供机械结合,同时提供至少沿一个方向流体不能通过的固体层。
    • 4. 发明申请
    • Embedded barrier to fluid flow
    • 嵌入式流体流动屏障
    • US20060150555A1
    • 2006-07-13
    • US11368473
    • 2006-03-07
    • Michael McInerneySean MorefieldVincent HockPhilip MaloneCharles Weiss
    • Michael McInerneySean MorefieldVincent HockPhilip MaloneCharles Weiss
    • E04B5/00
    • E04B5/00
    • A barrier to fluid passage is embedded within, instead of atop, porous material to retain the durability of the surface of the porous material. In one embodiment, a thin set mortar is applied to a concrete slab. A pleated metal foil is pressed into the wet mortar and a bond is established. The mortar is allowed to set and a top, or finish, section of concrete is then poured over the foil and finished conventionally. Provisions are made for sealing expansion joints in concrete slab floors and at the juncture of floor and wall. The foil may be provided in multiple layers to provide a mechanical bond via mortar oozing through perforations or along pleats in each of the top and bottoms layers, while providing a solid layer through which a fluid will not pass, at least in one direction.
    • 流体通道的屏障嵌入在多孔材料中而不是顶部,以保持多孔材料表面的耐久性。 在一个实施例中,将薄的固定砂浆施加到混凝土板。 将打褶的金属箔压入湿砂浆中并建立粘结。 允许砂浆固定,然后将混凝土的顶部或完成部分倒在箔上并按常规完成。 规定混凝土板地板和地板和墙壁交界处的密封膨胀节。 箔可以设置成多层,以通过穿孔或沿着顶部和底部层中的每一个中的褶皱的灰浆渗出提供机械结合,同时提供至少沿一个方向流体不能通过的固体层。
    • 10. 发明申请
    • Self-dispensing bullet trap buffer block
    • 自动分配子弹捕获缓冲块
    • US20050006849A1
    • 2005-01-13
    • US10911771
    • 2004-08-04
    • Steven LarsonCharles WeissJoe TomPhilip MaloneEdward Fransen
    • Steven LarsonCharles WeissJoe TomPhilip MaloneEdward Fransen
    • F41J13/00F41J1/12
    • F41J13/00F41J11/02
    • An additive for buffering a projectile trapping medium and spent projectiles trapped therein is a buffering compound formed as a low density foamed concrete block that will self-dispense via fragmentation or pulverization when subjected to incoming fire. The block combines at least one dry component selected from the group consisting of low solubility phosphate compounds, low solubility aluminum compounds, iron compounds, sulfate compounds, and calcium carbonate with a cementing material, water, and an aqueous based foam in substantially stoichiometric amounts. The aqueous based foam is added in a quantity sufficient to adjust the density of the resulting block to be non-buoyant without sinking in the projectile trapping medium. The additive may be employed in a projectile trapping medium to chemically stabilize the medium and environmentally stabilize projectiles trapped therein.
    • 用于缓冲抛射物捕获介质和被捕获的废弃抛射物的添加剂是形成为低密度发泡混凝土块的缓冲化合物,其在经受火灾时经由碎裂或粉碎而自分配。 该嵌段以基本上化学计量的量将至少一种选自低溶解度磷酸盐化合物,低溶解度铝化合物,铁化合物,硫酸盐化合物和碳酸钙的干组分与胶结材料,水和基于水的基础泡沫体组合。 添加的水性泡沫体的量足以将所得块的密度调节为非浮力,而不会沉入射弹捕获介质中。 添加剂可以用于抛射物捕集介质中以化学稳定介质并且环境地稳定被捕获在其中的射弹。