Hao Liu, Wenyuan Liu, Zhou Wang, Yan Ma, Xitang Wang
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引用次数: 3
摘要
六钛酸钾晶须(PTW)材料在保温领域受到广泛关注。然而,PTW保温材料的低力学性能限制了其发展和应用。在本研究中,采用介碳微珠(MCMB)作为成孔剂,可以获得低密度、高力学性能和高保温能力的PTW保温材料。MCMB的热解氧化作用促进了煅烧过程中晶须的发育,导致材料孔隙率增大。制备的PTW材料经1000℃热处理后,导热系数为0.043 ~ 0.035 w m−1。从室温到900°C, K−1和0.52 g.cm−3的低堆积密度。在900℃和1000℃热处理时,PTW材料的抗压强度分别为1.92和2.51 MPa,在5%的压缩应变下仍保持70%以上的高回弹率。热处理温度升高(1100℃以上)导致晶须之间烧结,抗压强度提高4.23 MPa以上。所研究的低密度、高力学性能和保温性能的PTW材料在保温领域具有广阔的应用前景。图形抽象
Microstructure, Mechanical and Thermal Insulation Properties of Potassium Hexatitanate Whiskers Thermal Insulation Materials
Potassium hexatitanate whiskers (PTW) materials have attracted much attention in thermal insulation fields. Nevertheless, the low mechanical properties limited the development and application of PTW thermal insulation materials. In this work, low density, high mechanical properties and high thermal insulation capacity of PTW thermal insulation materials can be obtained through mesocarbon microbeads (MCMB) adopted as pore-forming agent. The pyrolysis and oxidation of MCMB promoted the development of whiskers during the calcination process, rendering the increased materials porosity. The as-prepared PTW materials heat treated at 1000°C possessed low thermal conductivity of 0.043-0.035 W.m−1.K−1 from room temperature to 900°C and a low bulk density of 0.52 g.cm−3. Owing to the point of contact between whiskers with developed diameter and aspect ratio, comperssive strength of PTW materials heat treated at 900° and 1000°C was 1.92 and 2.51 MPa, respectively, maintaining high resilience rates of above 70% at 5% compressive strain. The elevated heat-treatment temperature (above 1100°C) led to the sintering between whiskers and the resultant enhanced compressive strength of higher than 4.23 MPa. The researched low density, high mechanical properties and thermal insulation PTW materials exhibit huge prospects as insulation linings in thermal insulation fields. GRAPHICAL ABSTRACT
期刊介绍:
Transactions of the Indian Ceramic Society is a quarterly Journal devoted to current scientific research, technology and industry-related news on glass and ceramics. The Journal covers subjects such as the chemical, mechanical, optical, electronic and spectroscopic properties of glass and ceramics, and characterization of materials belonging to this family.
The Editor invites original research papers, topical reviews, opinions and achievements, as well as industry profiles for publication. The contributions should be accompanied by abstracts, keywords and other details, as outlined in the Instructions for Authors section. News, views and other comments on activities of specific industries and organizations, and also analyses of industrial scenarios are also welcome.
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