浸渍阶段数对玻璃碳泡沫宏观结构和强度特性的影响

D. Ponomareva, E. I. Timoshchuk, R. E. Shirokov, E. Vasilyeva, I. I. Lyapin, V. Y. Takhtin
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引用次数: 0

摘要

采用模板法制备玻璃碳泡沫塑料,研究了初始模板孔尺寸、溶液浓度、浸渍阶段数对所得材料宏观结构和强度特性的影响。炭前驱体采用新型树脂级sps - 012a2,其焦炭残留量大于57 wt. %。结果表明,增加浸渍阶段的数量可以提高强度特性,同时保持90%的开放孔隙率,而基于聚氨酯模板的玻璃碳泡沫,孔隙率为60孔/英寸,在浓度为30 wt. %的溶液中浸渍4次,由于材料体积中均匀的壁增厚,因此具有最佳的性能。抗压强度为1.12 MPa,是国外同类材料的2倍,开孔率为91%。已经确定,由于形成一簇重叠的细胞,初始模板的细胞大小的减少会导致材料的脆化。提高玻璃碳泡沫的机械强度,同时保持开孔结构,扩大了这类材料的应用领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the number of impregnation stages on the macrostructural and strength characteristics of glassy carbon foams
The template synthesis of glassy carbon foams was used in the work and the influence of the initial template cell size, the concentration of the solution, and the number of impregnation stages on the macrostructural and strength characteristics of the obtained materials was studied. As a carbon precursor was used the solution of Novolac resin grade SFP-012A2, the coke residue of which is more than 57 wt. %. It was shown that increasing the number of impregnation stages makes it possible to improve strength characteristics while maintaining open porosity at the level of 90 %, while glassy carbon foam based on a polyurethane template with a porosity of 60 pores per inch and 4 stages of impregnation with a solution with a concentration of 30 wt. % has the best set of properties due to the uniform wall thickening in the material volume. The value of compressive strength was 1.12 MPa, which is 2 times higher than the value of foreign analogues, while the open porosity was 91 %. It has been established that a decrease in the size of the cells of the initial template can lead to embrittlement of the material due to the formation of a cluster of overlapped cells. Increasing the mechanical strength of glassy carbon foams while maintaining an open-cell structure expands the field of application of this class of materials.
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