A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Self-response and self-healing asphalt bridge deck pavement method
The invention provides a self-response and self-healing asphalt bridge deck pavement method, which is characterized in that a pavement layer and a control device which are connected through wires and optical fibers are arranged; the pavement layer structurally comprises a concrete leveling layer, a waterproof layer, a reinforcing mesh, a concrete protection layer, a first bonding layer, a heat insulation layer, a second bonding layer, an electromagnetic emission layer, a third bonding layer and an asphalt surface layer from bottom to top. The control device comprises a cooling heat dissipation device, a high-frequency alternating-current generator, a general control device and an optical fiber sensor which are arranged in a control box from bottom to top; the electromagnetic emission layer is formed by paving a hollow engineering ceramic shell; an electromagnetic transmitting coil is arranged in a hollow engineering ceramic shell, and openings are formed in the four side faces of the ceramic shell. And the electromagnetic transmitting coil is erected in the hollow space in the ceramic shell through a coil rack, is not in contact with the ceramic shell and is connected to a high-frequency alternating-current generator, a master control device and an optical fiber sensor through a wire via the opening.
本发明提供了一种自响应和自愈合的沥青桥面铺装方法,设置通过导线、光纤连接的铺装层和控制装置,铺装层的结构自下而上包括:混凝土整平层、防水层、钢筋网、混凝土保护层、第一粘结层、隔热层、第二粘结层、电磁发射层、第三粘结层、沥青面层。控制装置包括自下而上设置在控制箱内的冷却散热装置、高频交流发电机、总控装置和光纤传感器;所述电磁发射层由中空的工程性陶瓷外壳通铺组成;中空的工程性陶瓷外壳中内置电磁发射线圈且所述陶瓷外壳四个侧面均有开口;所述电磁发射线圈通过线圈架支立在所述陶瓷外壳内部的中空空间内,不与所述陶瓷外壳接触并通过导线经开口连接到高频交流发电机、总控装置、光纤传感器。
Self-response and self-healing asphalt bridge deck pavement method
The invention provides a self-response and self-healing asphalt bridge deck pavement method, which is characterized in that a pavement layer and a control device which are connected through wires and optical fibers are arranged; the pavement layer structurally comprises a concrete leveling layer, a waterproof layer, a reinforcing mesh, a concrete protection layer, a first bonding layer, a heat insulation layer, a second bonding layer, an electromagnetic emission layer, a third bonding layer and an asphalt surface layer from bottom to top. The control device comprises a cooling heat dissipation device, a high-frequency alternating-current generator, a general control device and an optical fiber sensor which are arranged in a control box from bottom to top; the electromagnetic emission layer is formed by paving a hollow engineering ceramic shell; an electromagnetic transmitting coil is arranged in a hollow engineering ceramic shell, and openings are formed in the four side faces of the ceramic shell. And the electromagnetic transmitting coil is erected in the hollow space in the ceramic shell through a coil rack, is not in contact with the ceramic shell and is connected to a high-frequency alternating-current generator, a master control device and an optical fiber sensor through a wire via the opening.
本发明提供了一种自响应和自愈合的沥青桥面铺装方法,设置通过导线、光纤连接的铺装层和控制装置,铺装层的结构自下而上包括:混凝土整平层、防水层、钢筋网、混凝土保护层、第一粘结层、隔热层、第二粘结层、电磁发射层、第三粘结层、沥青面层。控制装置包括自下而上设置在控制箱内的冷却散热装置、高频交流发电机、总控装置和光纤传感器;所述电磁发射层由中空的工程性陶瓷外壳通铺组成;中空的工程性陶瓷外壳中内置电磁发射线圈且所述陶瓷外壳四个侧面均有开口;所述电磁发射线圈通过线圈架支立在所述陶瓷外壳内部的中空空间内,不与所述陶瓷外壳接触并通过导线经开口连接到高频交流发电机、总控装置、光纤传感器。
Self-response and self-healing asphalt bridge deck pavement method
一种自响应和自愈合的沥青桥面铺装方法
DONG XUMING (author) / YUAN RUIDONG (author) / WEI YIQIANG (author) / ZHAO YUNCHUAN (author) / CAO YU (author) / HOU LIN (author) / JING QINGJUN (author) / HAO XIAOYU (author) / LI CHENGGONG (author) / HAO JIANTAO (author)
2024-01-09
Patent
Electronic Resource
Chinese
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