Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Composition for heat storage material, heat storage material and preparation method thereof
The invention relates to the field of heat storage materials, and discloses a composition for a heat storage material, the heat storage material and a preparation method of the heat storage material.The composition comprises an asphalt material, graphite and an inorganic mineral material; the asphalt material is selected from coal-based asphalt and/or coal-based modified asphalt, the C/H of the asphalt material is 1.3-1.7, the softening point is greater than or equal to 130 DEG C, and the residual carbon rate after carbonization is greater than or equal to 66%; on the basis of the total weight of the composition for the heat storage material, the content of the asphalt material is 10-40 wt%, the content of the graphite is 20-80 wt%, the content of the inorganic mineral material is 10-70 wt%, and the prepared heat storage material has high thermal conductivity, compressive strength and volume density at the same time.
本发明涉及储热材料领域,公开了一种储热材料用组合物和储热材料及其制备方法,该组合物包含沥青材料、石墨和无机矿物材料,其中,所述沥青材料选自煤基沥青和/或煤基改质沥青,所述沥青材料的C/H为1.3~1.7,软化点≥130℃,炭化后的残碳率≥66%;以所述储热材料用组合物的总重量为基准,所述沥青材料的含量为10~40重量%,所述石墨的含量为20~80重量%,所述无机矿物材料的含量为10~70重量%,所制备的储热材料同时兼具较高的热导率、抗压强度和体积密度。
Composition for heat storage material, heat storage material and preparation method thereof
The invention relates to the field of heat storage materials, and discloses a composition for a heat storage material, the heat storage material and a preparation method of the heat storage material.The composition comprises an asphalt material, graphite and an inorganic mineral material; the asphalt material is selected from coal-based asphalt and/or coal-based modified asphalt, the C/H of the asphalt material is 1.3-1.7, the softening point is greater than or equal to 130 DEG C, and the residual carbon rate after carbonization is greater than or equal to 66%; on the basis of the total weight of the composition for the heat storage material, the content of the asphalt material is 10-40 wt%, the content of the graphite is 20-80 wt%, the content of the inorganic mineral material is 10-70 wt%, and the prepared heat storage material has high thermal conductivity, compressive strength and volume density at the same time.
本发明涉及储热材料领域,公开了一种储热材料用组合物和储热材料及其制备方法,该组合物包含沥青材料、石墨和无机矿物材料,其中,所述沥青材料选自煤基沥青和/或煤基改质沥青,所述沥青材料的C/H为1.3~1.7,软化点≥130℃,炭化后的残碳率≥66%;以所述储热材料用组合物的总重量为基准,所述沥青材料的含量为10~40重量%,所述石墨的含量为20~80重量%,所述无机矿物材料的含量为10~70重量%,所制备的储热材料同时兼具较高的热导率、抗压强度和体积密度。
Composition for heat storage material, heat storage material and preparation method thereof
储热材料用组合物和储热材料及其制备方法
GAO GUANGHUI (Autor:in) / LIU JUNQING (Autor:in) / LIANG WENBIN (Autor:in)
22.12.2020
Patent
Elektronische Ressource
Chinesisch
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