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    • 1. 发明申请
    • Method of Reinforcement of a Structure and Structure Thus Reinforced
    • 结构和结构的加固方法如此增强
    • US20090013625A1
    • 2009-01-15
    • US12169220
    • 2008-07-08
    • Christian TourneurDominique Deschamps
    • Christian TourneurDominique Deschamps
    • E04C5/08
    • E04G23/0218E02D27/08E04G23/0229E04G2023/0251E04G2023/0255
    • Method for reinforcing a structure (1), comprising the following stages: a) placing in one part (11, 12) of the structure (1) an anchoring element (3) secured to strands of reinforcing wires (41, 42) such that the anchoring element (3) is at least partially incorporated into the part (11, 12) of the structure (1) and in that at least one portion (42) of the strands of reinforcing wires protrudes from a part (12) of the structure (1); b) securing the anchoring element (3) to the part (11, 12) of the structure (1); c) applying at least one layer of fabric (5) onto a surface (15) of the structure (1) such that at least one part of the portion (42) of the protruding strands of reinforcing wires is secured to the surface (15) of the structure (1) by bonding said layer of fabric (5). Structure thus produced. Anchoring element of a structure.
    • 一种用于加强结构(1)的方法,包括以下阶段:a)将结构(1)的一部分(11,12)放置成固定到加强丝股线(41,42)的锚固元件(3),使得 所述锚固元件(3)至少部分地结合到所述结构(1)的所述部分(11,12)中,并且所述加强线股线的至少一部分(42)从所述结构(1)的部分(12)突出, 结构(1); b)将锚固元件(3)固定到结构(1)的部分(11,12)上; c)将至少一层织物(5)施加到结构(1)的表面(15)上,使得增强线的突出股线的部分(42)的至少一部分固定到表面(15) )结合所述织物层(5)。 结构如此产生。 一个结构的锚定元素。
    • 3. 发明授权
    • Method of reinforcing a construction work
    • 加强施工工作的方法
    • US09011619B2
    • 2015-04-21
    • US13345209
    • 2012-01-06
    • Christian TourneurJulien Mercier
    • Christian TourneurJulien Mercier
    • B29C70/68E04G23/02
    • B29C70/68E04G23/0218E04G2023/0251Y10T428/31551Y10T428/31562
    • Method of reinforcing a construction work comprising the successive steps of: applying a first layer on a surface of the construction work, the first layer comprising a curable polymer that, once it is cured, can be thermally activated for adhering to a thermoplastic material; curing said curable polymer; heating at least a surface of the first layer opposite said surface of the construction work, for thermal activation of the cured polymer; and applying a second layer over said surface of the first layer, the second layer comprising a composite including reinforcement fibers and a thermoplastic matrix, whereby the thermoplastic matrix and the thermally activated cured polymer adhere to each other.
    • 一种加固结构工程的方法,包括以下连续步骤:在构造工件的表面上施加第一层,所述第一层包含可固化的聚合物,其一旦固化就能被热活化以粘附到热塑性材料上; 固化所述可固化聚合物; 加热所述第一层的与所述构造工件的所述表面相对的表面,用于热固化聚合物的活化; 以及在所述第一层的所述表面上施加第二层,所述第二层包括包含增强纤维和热塑性基质的复合物,由此所述热塑性基质和所述热活化的固化聚合物彼此粘附。
    • 8. 发明申请
    • PROCESS FOR TREATING SALT IN A POROUS STRUCTURE AND CORRESPONDING APPARATUS
    • 多孔结构和相关设备中的盐处​​理工艺
    • US20100012508A1
    • 2010-01-21
    • US12498923
    • 2009-07-07
    • Christian TourneurDidier Keisser
    • Christian TourneurDidier Keisser
    • C25F1/00
    • C04B41/4566C04B41/009C04B41/5376C04B41/61C04B41/72C04B28/02C04B32/02
    • Process for the electrochemical treatment of a construction comprising a porous medium, a corrodible substance disposed in the porous medium, the construction having electrically conductive properties, comprising the application of an external electrode (3) to a surface (2) of the construction, the external electrode (3) being connected to a terminal of a generator (6), the porous medium being connected to another terminal of the generator (6), and the application of the following four phases at least once: during a first phase lasting between 12 and 360 hours, passing a negative electric current which causes anions to migrate from the porous medium to the external electrode (3) and cations to migrate from the external electrode (3) towards the porous medium, then during a second phase lasting between 2 minutes and 100 hours, interrupting the circulation of the electric current, then during a third phase lasting between 2 minutes and 24 hours, passing a positive electric current, then during a fourth phase lasting between 1 and 120 minutes, interrupting the circulation of the electric current.
    • 包括多孔介质,设置在多孔介质中的可腐蚀物质,具有导电性能的结构的结构的电化学处理方法包括将外部电极(3)施加到该结构的表面(2), 外部电极(3)连接到发电机(6)的端子,所述多孔介质连接到所述发电机(6)的另一个端子,并且将以下四个相位施加至少一次:在第一阶段期间持续 12和360小时,通过负电流,其导致阴离子从多孔介质迁移到外部电极(3),阳离子从外部电极(3)迁移到多孔介质,然后在第二阶段期间持续2 分钟和100小时,中断电流的循环,然后在持续2分钟至24小时的第三阶段,通过正电流,然后 在持续1到120分钟的第四阶段期间,中断电流的循环。
    • 9. 发明申请
    • METHOD FOR THE GALVANIC PROTECTION OF A REINFORCED CONCRETE STRUCTURE
    • 强化混凝土结构的气候保护方法
    • US20150060298A1
    • 2015-03-05
    • US14395272
    • 2012-04-17
    • Christian Tourneur
    • Christian Tourneur
    • C23F13/04C23F13/06
    • C23F13/04C04B41/009C04B41/5376C04B41/72C23F13/02C23F13/06C23F2201/02E04C5/015C04B28/02
    • The invention relates to the galvanic protection of a concrete structure (10) comprising metal reinforcements (12). Holes (15) are previously made in the structure, for receiving sacrificial anodes. Before arranging said sacrificial anodes, decontamination electrodes (16) and an electrolyte are inserted into the holes in order to carry out a decontamination phase wherein the negative terminal of a power supply (18) is electrically connected to the reinforcements of the structure and the positive terminal of the power supply is electrically connected to the decontamination electrodes. Once the power supply has been activated for a certain amount of time in order to attract the chloride ions to the decontamination electrodes and the electrolyte, the electrolyte and the decontamination electrodes are removed from the holes (15) and the sacrificial anodes are sealed therein and then electrically connected to the reinforcements.
    • 本发明涉及包括金属增强件(12)的混凝土结构(10)的电流保护。 孔(15)预先在结构中制成,用于接收牺牲阳极。 在布置所述牺牲阳极之前,将净化电极(16)和电解质插入到孔中以便执行净化阶段,其中电源(18)的负极电连接到结构的增强件和正极 电源端子与去污电极电连接。 一旦电源已经被激活了一定的时间量,以便将氯离子吸引到去污电极和电解质中,则电解质和去污电极从孔(15)中去除,牺牲阳极被密封在其中, 然后电连接到加强件。