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    High-strength high-ductility low-carbon cement-based composite material applied to ocean engineering

    New search for: HUANG YUE
    New search for: SONG NIXIA
    New search for: GAO LEI
    New search for: YANG GUOTAO
    New search for: SHANG HUAISHUAI
    New search for: SONG JUN
    New search for: LIU XIAOYANG
    New search for: YOU WEIJIE
    New search for: HUANG QIAN
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    The invention relates to a high-strength high-ductility low-carbon cement-based composite material applied to ocean engineering, which is prepared from the following components in parts by weight: 350 to 800 parts of cement, 200 parts of silica fume, 0 to 300 parts of calcined clay, 0 to 150 parts of limestone powder, 0 to 360 parts of fine aggregate, 200 parts of PE fiber, 30 parts of water reducing agent and 180 parts of water. According to the prepared engineering cement-based composite material, the problems that traditional concrete is too high in brittleness and insufficient in toughness are solved.

    本发明涉及一种应用于海洋工程的高强高延性低碳水泥基复合材料,按照重量份数计算,包括:350‑800份水泥、200份硅灰、0‑300份煅烧黏土、0‑150份石灰石粉、0‑360细骨料、200份PE纤维、30份减水剂和180份水。本发明所制备的工程用水泥基复合材料,解决了传统混凝土的脆性过大、韧性不足的问题。

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    High-strength high-ductility low-carbon cement-based composite material applied to ocean engineering

    New search for: HUANG YUE
    New search for: SONG NIXIA
    New search for: GAO LEI
    New search for: YANG GUOTAO
    New search for: SHANG HUAISHUAI
    New search for: SONG JUN
    New search for: LIU XIAOYANG
    New search for: YOU WEIJIE
    New search for: HUANG QIAN
    New search for: CUI HONGTAO

    The invention relates to a high-strength high-ductility low-carbon cement-based composite material applied to ocean engineering, which is prepared from the following components in parts by weight: 350 to 800 parts of cement, 200 parts of silica fume, 0 to 300 parts of calcined clay, 0 to 150 parts of limestone powder, 0 to 360 parts of fine aggregate, 200 parts of PE fiber, 30 parts of water reducing agent and 180 parts of water. According to the prepared engineering cement-based composite material, the problems that traditional concrete is too high in brittleness and insufficient in toughness are solved.

    本发明涉及一种应用于海洋工程的高强高延性低碳水泥基复合材料,按照重量份数计算,包括:350‑800份水泥、200份硅灰、0‑300份煅烧黏土、0‑150份石灰石粉、0‑360细骨料、200份PE纤维、30份减水剂和180份水。本发明所制备的工程用水泥基复合材料,解决了传统混凝土的脆性过大、韧性不足的问题。

    Access

    Download

    High-strength high-ductility low-carbon cement-based composite material applied to ocean engineering

    New search for: HUANG YUE
    New search for: SONG NIXIA
    New search for: GAO LEI
    New search for: YANG GUOTAO
    New search for: SHANG HUAISHUAI
    New search for: SONG JUN
    New search for: LIU XIAOYANG
    New search for: YOU WEIJIE
    New search for: HUANG QIAN
    New search for: CUI HONGTAO

    The invention relates to a high-strength high-ductility low-carbon cement-based composite material applied to ocean engineering, which is prepared from the following components in parts by weight: 350 to 800 parts of cement, 200 parts of silica fume, 0 to 300 parts of calcined clay, 0 to 150 parts of limestone powder, 0 to 360 parts of fine aggregate, 200 parts of PE fiber, 30 parts of water reducing agent and 180 parts of water. According to the prepared engineering cement-based composite material, the problems that traditional concrete is too high in brittleness and insufficient in toughness are solved.

    本发明涉及一种应用于海洋工程的高强高延性低碳水泥基复合材料,按照重量份数计算,包括:350‑800份水泥、200份硅灰、0‑300份煅烧黏土、0‑150份石灰石粉、0‑360细骨料、200份PE纤维、30份减水剂和180份水。本发明所制备的工程用水泥基复合材料,解决了传统混凝土的脆性过大、韧性不足的问题。

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    Title:

    High-strength high-ductility low-carbon cement-based composite material applied to ocean engineering

    Additional title:

    一种应用于海洋工程的高强高延性低碳水泥基复合材料

    Contributors:

    HUANG YUE (author) / SONG NIXIA (author) / GAO LEI (author) / YANG GUOTAO (author) / SHANG HUAISHUAI (author) / SONG JUN (author) / LIU XIAOYANG (author) / YOU WEIJIE (author) / HUANG QIAN (author) / CUI HONGTAO (author)

    Publication date:

    2024-05-03

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  C04B Kalk , LIME

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