轻质隔热纳米孔结构耐烧蚀酚醛材料
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中国科学院化学研究所

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TQ316. 6+3

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Preparation and Properties of Ablation-Resistant Phenolic Resin WithLow Density, Heat Insulation and Nanopores
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    摘要:

    在一定温度下,通过改性剂组分与热固性钡酚醛树脂之间热共聚反应,制备了改性酚醛树脂。采
    用模压工艺制备出具有目标尺寸和形状的改性酚醛树脂固化物,对该样品分别进行了400 和700℃的炭化处
    理,得到了相应的酚醛炭化样品,并测试其密度、失重率、收缩率等特征参数。研究改性剂用量对碳化物特征参
    数和性能的影响,如密度、失重率形貌、比表面积、隔热性能、压缩强度等。SEM 研究表明,700℃炭化后样品形
    成了“珊瑚状”碳结构,形成了30 ~150 nm 纳米孔。比表面积测试(BET)结果表明其比表面积可达464 m2 / g。
    隔热性能与力学性能的测试结果表明,相对于未改性酚醛树脂碳化物,改性酚醛碳化物的热导率降低了
    45. 57%,并且保持了较好的压缩强度。

    Abstract:

    Modified phenolic resin was prepared using thermal prepolymerization between barium-phenolic resin
    and modifier. The cured modified phenolic resin with regular size and shape was prepared using the technology of
    compress moding, and then, it was carbonized at the temperature of 400℃ and 700℃ to prepare the carbonized samples,
    which was used to measure density, weight loss, and shrinkage ratio. The influence of modifier on the morphology,
    surface area, thermal insulation properties and compression strength was also studied. The results of scanning electron
    microscope (SEM) showed that after calcinations at 700℃, the “ coral-like ” carbon structure was observed
    with the nanopores in a range of between 30 to150 nm and a relatively high brunauer-emmett-teller (BET) surface area
    of 464 m2 / g. Compared to the carbonized sample from unmodified phenolic resin, the test of insulation properties
    and mechanical properties showed that the thermal conductivity of modified phenolic resin was reduced by 45. 57%,
    but still retained good compression strength.

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王晓鹏 罗振华 张勃兴 匡松连 赵 彤.轻质隔热纳米孔结构耐烧蚀酚醛材料[J].宇航材料工艺,2014,44(1).

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  • 在线发布日期: 2016-11-28
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