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A platform for research: civil engineering, architecture and urbanism
Ceramsite concrete, ceramsite concrete protective layer and construction method of ceramsite concrete
The invention provides ceramsite concrete, a ceramsite concrete protective layer and a construction method of the ceramsite concrete. The ceramsite concrete comprises the following raw materials in parts by weight: 35-60 parts of sea sand, 5-20 parts of river sand, 18-35 parts of ceramsite, 6-20 parts of cement and 8-20 parts of straw ash. The preparation method comprises the following steps: uniformly mixing 35-60 parts by weight of the sea sand and 5-20 parts by weight of the river sand; and sequentially adding 10-15 parts by weight of the cement, 18-35 parts by weight of ceramsite, 8-20 parts by weight of the straw ash and a proper amount of water into the mixture, and carrying out stirring for a period of time to obtain the ceramsite concrete. According to the ceramsite concrete provided by the invention, the sea sand is applied to constructional engineering construction, so cost is relatively low, and the problems of shortage and high price of river sand resources at present are relieved; and the alkalinity of the straw ash is utilized to promote the environment-friendly utilization of straw, thereby achieving the goals of energy conservation and environment protection.
本发明提供了一种陶粒混凝土、陶粒混凝土保护层及其施工方法,包括以下重量份数的原料:海砂35‑60份、河砂5‑20份、陶粒18‑35份、水泥6‑20份和稻草灰8‑20份。制备时,将35‑60重量份的海砂与5‑20重量份的河砂混合均匀;向上述混合物中依次加入10‑15重量份水泥、18‑35重量份陶粒、8‑20重量份稻草灰和适量水,搅拌一段时间即可得到陶粒混凝土。本发明提供的陶粒混凝土通过利用海砂在建筑工程施工中的应用,成本较低,缓解了当前河沙资源紧张价格昂贵的问题;并利用了稻草灰的碱性,促进了秸秆的环保利用,从而达到了节能环保的目的。
Ceramsite concrete, ceramsite concrete protective layer and construction method of ceramsite concrete
The invention provides ceramsite concrete, a ceramsite concrete protective layer and a construction method of the ceramsite concrete. The ceramsite concrete comprises the following raw materials in parts by weight: 35-60 parts of sea sand, 5-20 parts of river sand, 18-35 parts of ceramsite, 6-20 parts of cement and 8-20 parts of straw ash. The preparation method comprises the following steps: uniformly mixing 35-60 parts by weight of the sea sand and 5-20 parts by weight of the river sand; and sequentially adding 10-15 parts by weight of the cement, 18-35 parts by weight of ceramsite, 8-20 parts by weight of the straw ash and a proper amount of water into the mixture, and carrying out stirring for a period of time to obtain the ceramsite concrete. According to the ceramsite concrete provided by the invention, the sea sand is applied to constructional engineering construction, so cost is relatively low, and the problems of shortage and high price of river sand resources at present are relieved; and the alkalinity of the straw ash is utilized to promote the environment-friendly utilization of straw, thereby achieving the goals of energy conservation and environment protection.
本发明提供了一种陶粒混凝土、陶粒混凝土保护层及其施工方法,包括以下重量份数的原料:海砂35‑60份、河砂5‑20份、陶粒18‑35份、水泥6‑20份和稻草灰8‑20份。制备时,将35‑60重量份的海砂与5‑20重量份的河砂混合均匀;向上述混合物中依次加入10‑15重量份水泥、18‑35重量份陶粒、8‑20重量份稻草灰和适量水,搅拌一段时间即可得到陶粒混凝土。本发明提供的陶粒混凝土通过利用海砂在建筑工程施工中的应用,成本较低,缓解了当前河沙资源紧张价格昂贵的问题;并利用了稻草灰的碱性,促进了秸秆的环保利用,从而达到了节能环保的目的。
Ceramsite concrete, ceramsite concrete protective layer and construction method of ceramsite concrete
一种陶粒混凝土、陶粒混凝土保护层及其施工方法
CHEN YAZHI (author) / WANG MINGYANG (author)
2020-08-25
Patent
Electronic Resource
Chinese
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