A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
One-time forming construction method for carborundum wear-resistant ground
The invention relates to the technical field of building construction, in particular to a one-time forming construction method for a wear-resistant carborundum floor, which comprises the following steps of: dividing base concrete into a plurality of sub-regions, and drawing a concentration change curve of carborundum dust concentration values of the sub-regions; and judging whether the sub-regions are marked as characteristic dominant sub-regions or not based on a dust concentration fluctuation value corresponding to the concentration change curve, and judging a bonding state of carborundum spreading by calculating a coagulation state characterization coefficient and a difference condition of the coagulation state characterization coefficient so as to select a construction mode for each sub-region. The carborundum wear-resistant floor is finally obtained through secondary carborundum spreading, trowelling and polishing, and then the effect difference of bonding between carborundum and concrete is quantified according to the dust raising phenomenon in the process that carborundum is spread on the surface of concrete, the construction mode is adjusted according to the effect difference of bonding between carborundum and concrete, and the construction efficiency is improved. The consistency of the bonding effect of the carborundum and the concrete is improved.
本发明涉及建筑施工技术领域,尤其涉及一种金刚砂耐磨地面一次成型施工方法,本发明通过将基层混凝土划分为若干子区域,绘制各子区域金刚砂粉尘浓度值的浓度变化曲线,基于浓度变化曲线对应的粉尘浓度波动值判定是否将子区域标记为特征显性子区域,通过计算凝结状态表征系数以及凝结状态表征系数的差异情况判定金刚砂撒布的粘结状态,以选定对各子区域的施工方式,通过金刚砂二次撒布、抹平以及抛光最终得到金刚砂耐磨地面,进而,实现了根据金刚砂在混凝土表面撒布过程中的扬尘现象将金刚砂与混凝土粘结的效果差异进行量化,以及根据金刚砂与混凝土粘结的效果差异调整施工方式,提高了金刚砂与混凝土粘结效果的一致性。
One-time forming construction method for carborundum wear-resistant ground
The invention relates to the technical field of building construction, in particular to a one-time forming construction method for a wear-resistant carborundum floor, which comprises the following steps of: dividing base concrete into a plurality of sub-regions, and drawing a concentration change curve of carborundum dust concentration values of the sub-regions; and judging whether the sub-regions are marked as characteristic dominant sub-regions or not based on a dust concentration fluctuation value corresponding to the concentration change curve, and judging a bonding state of carborundum spreading by calculating a coagulation state characterization coefficient and a difference condition of the coagulation state characterization coefficient so as to select a construction mode for each sub-region. The carborundum wear-resistant floor is finally obtained through secondary carborundum spreading, trowelling and polishing, and then the effect difference of bonding between carborundum and concrete is quantified according to the dust raising phenomenon in the process that carborundum is spread on the surface of concrete, the construction mode is adjusted according to the effect difference of bonding between carborundum and concrete, and the construction efficiency is improved. The consistency of the bonding effect of the carborundum and the concrete is improved.
本发明涉及建筑施工技术领域,尤其涉及一种金刚砂耐磨地面一次成型施工方法,本发明通过将基层混凝土划分为若干子区域,绘制各子区域金刚砂粉尘浓度值的浓度变化曲线,基于浓度变化曲线对应的粉尘浓度波动值判定是否将子区域标记为特征显性子区域,通过计算凝结状态表征系数以及凝结状态表征系数的差异情况判定金刚砂撒布的粘结状态,以选定对各子区域的施工方式,通过金刚砂二次撒布、抹平以及抛光最终得到金刚砂耐磨地面,进而,实现了根据金刚砂在混凝土表面撒布过程中的扬尘现象将金刚砂与混凝土粘结的效果差异进行量化,以及根据金刚砂与混凝土粘结的效果差异调整施工方式,提高了金刚砂与混凝土粘结效果的一致性。
One-time forming construction method for carborundum wear-resistant ground
一种金刚砂耐磨地面一次成型施工方法
JIANG GENGCHUN (author) / LU JINLUN (author) / CHEN LIANG (author) / TANG WUXING (author) / HUANG YUNBO (author) / HONG PENG (author) / HUANG GUOHUI (author) / LI LIUKUN (author) / WAN JUN (author) / HE YUTING (author)
2024-05-24
Patent
Electronic Resource
Chinese
| European Patent Office | 2024
Carborundum ground structure and secondary forming construction process
| European Patent Office | 2024