A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
All-solid-waste low-carbon concrete and preparation method thereof
The all-solid-waste low-carbon concrete comprises the following components in parts by mass: 10-30 parts of water, 40-50 parts of recycled aggregate, 10-20 parts of fly ash, 10-20 parts of slag, 1-5 parts of a composite alkali activator and 1-5 parts of regenerated fiber. The invention also provides all-solid-waste low-carbon concrete and a preparation method thereof. The preparation method comprises the following steps: S1, mixing the following raw materials in parts by mass: 10-30 parts of water, 40-50 parts of recycled aggregate, 10-20 parts of fly ash, 10-20 parts of slag, 1-5 parts of a compound alkali activator and 1-5 parts of regenerated fiber; s2, putting the mixture into a concrete mixer to form uniform flow type slurry concrete; and S3, pouring the flow type slurry concrete into a mold for molding. The all-solid-waste low-carbon concrete disclosed by the invention has the characteristics of high strength, low cost and low carbon emission, and can be widely applied to construction of various civil buildings in cities and villages.
一种全固废低碳混凝土,包括以下质量份的组分:水10‑30份、再生骨料40‑50份、粉煤灰10‑20份、矿渣10‑20份、复合碱激发剂1‑5份、再生纤维1‑5份。以及提供一种全固废低碳混凝土及其制备方法,包括如下步骤:S1.将原料按以下质量份数混合:水10‑30份、再生骨料40‑50份、粉煤灰10‑20份、矿渣10‑20份、复合碱激发剂1‑5份、再生纤维1‑5份;S2.将混合料放入混凝土搅拌机中,形成均匀的流动型浆体混凝土;S3.将流动型浆体混凝土倒入模具中成型。本发明的全固废低碳混凝土具有高强度、低成本、低碳排的特点,可广泛应用于城市、乡村的各类民用建筑的建设。
All-solid-waste low-carbon concrete and preparation method thereof
The all-solid-waste low-carbon concrete comprises the following components in parts by mass: 10-30 parts of water, 40-50 parts of recycled aggregate, 10-20 parts of fly ash, 10-20 parts of slag, 1-5 parts of a composite alkali activator and 1-5 parts of regenerated fiber. The invention also provides all-solid-waste low-carbon concrete and a preparation method thereof. The preparation method comprises the following steps: S1, mixing the following raw materials in parts by mass: 10-30 parts of water, 40-50 parts of recycled aggregate, 10-20 parts of fly ash, 10-20 parts of slag, 1-5 parts of a compound alkali activator and 1-5 parts of regenerated fiber; s2, putting the mixture into a concrete mixer to form uniform flow type slurry concrete; and S3, pouring the flow type slurry concrete into a mold for molding. The all-solid-waste low-carbon concrete disclosed by the invention has the characteristics of high strength, low cost and low carbon emission, and can be widely applied to construction of various civil buildings in cities and villages.
一种全固废低碳混凝土,包括以下质量份的组分:水10‑30份、再生骨料40‑50份、粉煤灰10‑20份、矿渣10‑20份、复合碱激发剂1‑5份、再生纤维1‑5份。以及提供一种全固废低碳混凝土及其制备方法,包括如下步骤:S1.将原料按以下质量份数混合:水10‑30份、再生骨料40‑50份、粉煤灰10‑20份、矿渣10‑20份、复合碱激发剂1‑5份、再生纤维1‑5份;S2.将混合料放入混凝土搅拌机中,形成均匀的流动型浆体混凝土;S3.将流动型浆体混凝土倒入模具中成型。本发明的全固废低碳混凝土具有高强度、低成本、低碳排的特点,可广泛应用于城市、乡村的各类民用建筑的建设。
All-solid-waste low-carbon concrete and preparation method thereof
一种全固废低碳混凝土及其制备方法
WU KAIKAI (author) / ZHAO HANYI (author) / WANG MINGHUAN (author) / FU CHUANQING (author)
2024-08-30
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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