Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-temperature-resistant heat storage material, preparation method and application thereof, composition for preparing high-temperature-resistant heat storage material and application of composition
The invention relates to the field of heat storage and heat conduction materials, and discloses a high-temperature-resistant heat storage material, a preparation method and application thereof, a composition for preparing the high-temperature-resistant heat storage material and application of the composition. The high-temperature-resistant heat storage material comprises heat-conducting particles and a carbon component; wherein the surfaces of the heat-conducting particles are provided with high-temperature-resistant coatings; on the basis of the total weight of the high-temperature-resistant heat storage material, the content of the heat-conducting particles is 65-84 wt%, and the content of the carbon component is 16-35 wt%. The high-temperature-resistant heat storage material not only has high heat conductivity, but also has excellent high-temperature resistance, and can still keep excellent heat conductivity under a high-temperature condition, so that the heat storage material can be directly used at a high temperature, inert gas protection is not needed, the cost is saved, and the risk is reduced.
本发明涉及储热、导热材料领域,公开了一种耐高温蓄热材料及其制备方法与应用、一种用于制备耐高温蓄热材料的组合物及其应用。所述耐高温蓄热材料包括导热颗粒和炭质组分;其中,所述导热颗粒的表面含有耐高温涂层;以所述耐高温蓄热材料的总重量为基准,所述导热颗粒的含量为65‑84wt%,所述炭质组分的含量为16‑35wt%。该耐高温蓄热材料不仅具有高的热导率,并且具有优异的耐高温性,在高温条件下仍能够保持优异的热导率,使得该蓄热材料能在高温下直接使用,无需惰性气体保护,节约成本,降低风险。
High-temperature-resistant heat storage material, preparation method and application thereof, composition for preparing high-temperature-resistant heat storage material and application of composition
The invention relates to the field of heat storage and heat conduction materials, and discloses a high-temperature-resistant heat storage material, a preparation method and application thereof, a composition for preparing the high-temperature-resistant heat storage material and application of the composition. The high-temperature-resistant heat storage material comprises heat-conducting particles and a carbon component; wherein the surfaces of the heat-conducting particles are provided with high-temperature-resistant coatings; on the basis of the total weight of the high-temperature-resistant heat storage material, the content of the heat-conducting particles is 65-84 wt%, and the content of the carbon component is 16-35 wt%. The high-temperature-resistant heat storage material not only has high heat conductivity, but also has excellent high-temperature resistance, and can still keep excellent heat conductivity under a high-temperature condition, so that the heat storage material can be directly used at a high temperature, inert gas protection is not needed, the cost is saved, and the risk is reduced.
本发明涉及储热、导热材料领域,公开了一种耐高温蓄热材料及其制备方法与应用、一种用于制备耐高温蓄热材料的组合物及其应用。所述耐高温蓄热材料包括导热颗粒和炭质组分;其中,所述导热颗粒的表面含有耐高温涂层;以所述耐高温蓄热材料的总重量为基准,所述导热颗粒的含量为65‑84wt%,所述炭质组分的含量为16‑35wt%。该耐高温蓄热材料不仅具有高的热导率,并且具有优异的耐高温性,在高温条件下仍能够保持优异的热导率,使得该蓄热材料能在高温下直接使用,无需惰性气体保护,节约成本,降低风险。
High-temperature-resistant heat storage material, preparation method and application thereof, composition for preparing high-temperature-resistant heat storage material and application of composition
耐高温蓄热材料及其制备方法与应用、用于制备耐高温蓄热材料的组合物及其应用
ZHENG DONGFANG (Autor:in) / LIU JUNQING (Autor:in) / SHENG YING (Autor:in) / DUAN CHUNTING (Autor:in) / GAO GUANGHUI (Autor:in)
11.10.2022
Patent
Elektronische Ressource
Chinesisch
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