A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Bridge self-cleaning antifouling nano-material coating construction method
The invention relates to the technical field of construction methods. The bridge self-cleaning antifouling nanometer material coating construction method comprises a grinding machine and an air compressor, and comprises the following steps that (1) a high-altitude vehicle, a bridge inspection vehicle and a scaffold operation platform are erected, and after attachments on a wall surface are removedthrough a cleaning tool and the grinding machine, the wall surface is cleaned up through a high-pressure water gun; 2) repairing cracks and pits on the wall surface by using epoxy mortar, brushing aninterface agent on the wall surface, fully scraping putty on the basis of the interface agent, and manually polishing the putty surface by using a flattening tool; the method comprises the followingsteps: firstly, cleaning attachments on a wall surface by using a cleaning tool and a grinding machine; the method comprises the following steps: cleaning the wall surface by using a primary high-pressure water gun, repairing cracks and pits in the wall surface by using epoxy mortar, fully scraping the putty surface by using an interface agent and putty powder, spraying primer and nano paint, andinspecting the nano paint to improve the corrosion resistance and self-cleaning capacity of the bridge wall surface.
本发明涉及施工方法的技术领域,公开了桥梁自清洁防污型纳米材料涂装施工方法,包括打磨机以及空气压缩机,其中有以下步骤:1)、搭设高空车、桥检车以及脚手架作业平台,使用清洁工具以及打磨机清除墙面上的附着物后,再使用高压水枪将墙面清洗干净;2)、对墙面上的裂缝以及坑槽用环氧砂浆进行修复,而后在墙面上刷界面剂,在界面剂的基础上满刮腻子,而后使用平整工具将腻子面手工打磨平整;通过首先使用清洁工具以及所述打磨机清除墙面上的附着物后,而后一次高压水枪对墙面进行清洗,而后再使用环氧砂浆对墙面上的裂缝以及坑槽进行修复后,用界面剂以及腻子粉满刮腻子面后,再进行喷底漆以及纳米漆,待纳米漆经过检查后,即可提高桥梁墙面的耐腐蚀以及自洁能力。
Bridge self-cleaning antifouling nano-material coating construction method
The invention relates to the technical field of construction methods. The bridge self-cleaning antifouling nanometer material coating construction method comprises a grinding machine and an air compressor, and comprises the following steps that (1) a high-altitude vehicle, a bridge inspection vehicle and a scaffold operation platform are erected, and after attachments on a wall surface are removedthrough a cleaning tool and the grinding machine, the wall surface is cleaned up through a high-pressure water gun; 2) repairing cracks and pits on the wall surface by using epoxy mortar, brushing aninterface agent on the wall surface, fully scraping putty on the basis of the interface agent, and manually polishing the putty surface by using a flattening tool; the method comprises the followingsteps: firstly, cleaning attachments on a wall surface by using a cleaning tool and a grinding machine; the method comprises the following steps: cleaning the wall surface by using a primary high-pressure water gun, repairing cracks and pits in the wall surface by using epoxy mortar, fully scraping the putty surface by using an interface agent and putty powder, spraying primer and nano paint, andinspecting the nano paint to improve the corrosion resistance and self-cleaning capacity of the bridge wall surface.
本发明涉及施工方法的技术领域,公开了桥梁自清洁防污型纳米材料涂装施工方法,包括打磨机以及空气压缩机,其中有以下步骤:1)、搭设高空车、桥检车以及脚手架作业平台,使用清洁工具以及打磨机清除墙面上的附着物后,再使用高压水枪将墙面清洗干净;2)、对墙面上的裂缝以及坑槽用环氧砂浆进行修复,而后在墙面上刷界面剂,在界面剂的基础上满刮腻子,而后使用平整工具将腻子面手工打磨平整;通过首先使用清洁工具以及所述打磨机清除墙面上的附着物后,而后一次高压水枪对墙面进行清洗,而后再使用环氧砂浆对墙面上的裂缝以及坑槽进行修复后,用界面剂以及腻子粉满刮腻子面后,再进行喷底漆以及纳米漆,待纳米漆经过检查后,即可提高桥梁墙面的耐腐蚀以及自洁能力。
Bridge self-cleaning antifouling nano-material coating construction method
桥梁自清洁防污型纳米材料涂装施工方法
HUANG ZHI (author) / LIU TAO (author) / WANG LIN (author) / HUANG WENJIE (author) / ZHENG ZHIGANG (author) / HONG SHAOYOU (author) / FANG RUIJUN (author) / LI JIA (author) / HUANG HONG (author) / LI YOUZHI (author)
2020-05-19
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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