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    Energy-saving anti-seismic light wallboard and manufacturing method thereof

    New search for: SHU YOUMING
    New search for: WU YALU
    New search for: SHU YOUFANG

    The invention discloses an energy-saving anti-seismic light wallboard and a manufacturing method thereof, and relates to the technical field of light wallboard production, the energy-saving anti-seismic light wallboard comprises the following production raw materials by weight: 300-400 parts of cement, 150-200 parts of water, 600-700 parts of fine aggregate, 600-700 parts of coarse aggregate, 100-150 parts of fly ash, 5-6 parts of a water reducing agent, 1-3 parts of dispersible latex powder, 0.05-0.15 part of rock sand crystal, and 0-2.5 parts of fiber. The manufacturing method comprises the steps of material preparation, stirring, injection molding, forming and pre-cooling mold removal. According to the energy-saving anti-seismic light wallboard and the manufacturing method thereof, no matter alkali-resistant glass fibers and sisal fibers are singly doped or mixed, the tensile strength of concrete is firstly increased and then reduced along with the increase of the fiber mixing amount, the tensile strength of hybrid fiber concrete is maximum, the tensile strength of alkali-resistant glass fiber concrete is lower than that of alkali-resistant glass fiber concrete, and the tensile strength of sisal fiber concrete is minimum; the tensile strength of the self-compacting concrete is greater than that of the self-compacting concrete without fiber.

    本发明公开了一种节能抗震轻质墙板及其制作方法,涉及轻质墙板生产技术领域,本发明包括如下重量的生产原料:水泥300~400份、水150~200份、细骨料600~700份、粗骨料600~700份、粉煤灰100~150份、减水剂5~6份、可分散性乳胶粉1~3份、岩砂晶0.05~0.15份、纤维0~2.5份,其制作步骤为准备材料、搅拌、注模、成型与预冷拆模。本发明为一种节能抗震轻质墙板及其制作方法,无论单掺或混掺耐碱玻璃纤维、剑麻纤维,在随着纤维掺量的增加,混凝土的抗拉强度先增加后降低,混杂纤维混凝土的抗拉强度最大,耐碱玻璃纤维混凝土次之,剑麻纤维混凝土最小,且抗拉强度均大于未掺加纤维的自密实混凝土。

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    Energy-saving anti-seismic light wallboard and manufacturing method thereof

    New search for: SHU YOUMING
    New search for: WU YALU
    New search for: SHU YOUFANG

    The invention discloses an energy-saving anti-seismic light wallboard and a manufacturing method thereof, and relates to the technical field of light wallboard production, the energy-saving anti-seismic light wallboard comprises the following production raw materials by weight: 300-400 parts of cement, 150-200 parts of water, 600-700 parts of fine aggregate, 600-700 parts of coarse aggregate, 100-150 parts of fly ash, 5-6 parts of a water reducing agent, 1-3 parts of dispersible latex powder, 0.05-0.15 part of rock sand crystal, and 0-2.5 parts of fiber. The manufacturing method comprises the steps of material preparation, stirring, injection molding, forming and pre-cooling mold removal. According to the energy-saving anti-seismic light wallboard and the manufacturing method thereof, no matter alkali-resistant glass fibers and sisal fibers are singly doped or mixed, the tensile strength of concrete is firstly increased and then reduced along with the increase of the fiber mixing amount, the tensile strength of hybrid fiber concrete is maximum, the tensile strength of alkali-resistant glass fiber concrete is lower than that of alkali-resistant glass fiber concrete, and the tensile strength of sisal fiber concrete is minimum; the tensile strength of the self-compacting concrete is greater than that of the self-compacting concrete without fiber.

    本发明公开了一种节能抗震轻质墙板及其制作方法,涉及轻质墙板生产技术领域,本发明包括如下重量的生产原料:水泥300~400份、水150~200份、细骨料600~700份、粗骨料600~700份、粉煤灰100~150份、减水剂5~6份、可分散性乳胶粉1~3份、岩砂晶0.05~0.15份、纤维0~2.5份,其制作步骤为准备材料、搅拌、注模、成型与预冷拆模。本发明为一种节能抗震轻质墙板及其制作方法,无论单掺或混掺耐碱玻璃纤维、剑麻纤维,在随着纤维掺量的增加,混凝土的抗拉强度先增加后降低,混杂纤维混凝土的抗拉强度最大,耐碱玻璃纤维混凝土次之,剑麻纤维混凝土最小,且抗拉强度均大于未掺加纤维的自密实混凝土。

    Access

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    Energy-saving anti-seismic light wallboard and manufacturing method thereof

    New search for: SHU YOUMING
    New search for: WU YALU
    New search for: SHU YOUFANG

    The invention discloses an energy-saving anti-seismic light wallboard and a manufacturing method thereof, and relates to the technical field of light wallboard production, the energy-saving anti-seismic light wallboard comprises the following production raw materials by weight: 300-400 parts of cement, 150-200 parts of water, 600-700 parts of fine aggregate, 600-700 parts of coarse aggregate, 100-150 parts of fly ash, 5-6 parts of a water reducing agent, 1-3 parts of dispersible latex powder, 0.05-0.15 part of rock sand crystal, and 0-2.5 parts of fiber. The manufacturing method comprises the steps of material preparation, stirring, injection molding, forming and pre-cooling mold removal. According to the energy-saving anti-seismic light wallboard and the manufacturing method thereof, no matter alkali-resistant glass fibers and sisal fibers are singly doped or mixed, the tensile strength of concrete is firstly increased and then reduced along with the increase of the fiber mixing amount, the tensile strength of hybrid fiber concrete is maximum, the tensile strength of alkali-resistant glass fiber concrete is lower than that of alkali-resistant glass fiber concrete, and the tensile strength of sisal fiber concrete is minimum; the tensile strength of the self-compacting concrete is greater than that of the self-compacting concrete without fiber.

    本发明公开了一种节能抗震轻质墙板及其制作方法,涉及轻质墙板生产技术领域,本发明包括如下重量的生产原料:水泥300~400份、水150~200份、细骨料600~700份、粗骨料600~700份、粉煤灰100~150份、减水剂5~6份、可分散性乳胶粉1~3份、岩砂晶0.05~0.15份、纤维0~2.5份,其制作步骤为准备材料、搅拌、注模、成型与预冷拆模。本发明为一种节能抗震轻质墙板及其制作方法,无论单掺或混掺耐碱玻璃纤维、剑麻纤维,在随着纤维掺量的增加,混凝土的抗拉强度先增加后降低,混杂纤维混凝土的抗拉强度最大,耐碱玻璃纤维混凝土次之,剑麻纤维混凝土最小,且抗拉强度均大于未掺加纤维的自密实混凝土。

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    Title:

    Energy-saving anti-seismic light wallboard and manufacturing method thereof

    Additional title:

    一种节能抗震轻质墙板及其制作方法

    Contributors:

    SHU YOUMING (author) / WU YALU (author) / SHU YOUFANG (author)

    Publication date:

    2023-01-06

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  C04B Kalk , LIME / B28B Formgeben von Ton oder anderen keramischen Stoffzusammensetzungen, Schlacke oder von Mischungen, die zementartiges Material enthalten, z.B. Putzmörtel , SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS, SLAG OR MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER / B28C Tonaufbereitung , PREPARING CLAY / E04B Allgemeine Baukonstruktionen , GENERAL BUILDING CONSTRUCTIONS / E04C STRUCTURAL ELEMENTS , Bauelemente / E04H Gebäude oder ähnliche Bauwerke für besondere Zwecke , BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES

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