改性膨胀性石墨对硬质聚氨酯泡沫性能和胞体结构的影响

以改性膨胀性石墨和膨胀性石墨为添加剂制备复合聚氨酯泡沫材料,并表征了微观结构、表观密度、压缩性能、保温性能等。改性膨胀性石墨和膨胀性石墨物对材料的微观结构有很大的影响。加入改性膨胀性石墨可以有效提高材料的压缩模量,其压缩模量为143.58MPa,而膨胀性石墨的添加会降低材料的压缩模量,其压缩模量为106.62MPa,而没有添加膨胀性石墨的样品的压缩模量为为108.53MPa。改性膨胀性石墨和膨胀性石墨都可以提高材料的阻燃性能。

海泡石和EG对水性膨胀型钢结构防火涂料的影响

采用可膨胀性石墨(EG)和海泡石对传统的APP/PER/MEL膨胀型防火涂料体系进行改性,制备了一种新型水性超薄膨胀型防火涂料,并采用防火性能测试装置、热重分析(TGA)、差热重量分析(DTG)及X射线衍射(XRD)等方法对该防火涂料的耐火性能、热降解过程、炭化层结构进行了研究。热分析结果表明,海泡石与EG复合使用,将充分发挥它们的协同作用:EG在较低温度区域能够延缓炭化层的形成,而海泡石则能够在高温区域阻止炭化层氧化分解,并提高成炭率从而达到阻燃的目的。XRD结果显示,复合使用EG和海泡石能够促进炭化层中TiP2O7的形成,在高温阶段保护炭化层不被氧化。当防火涂料中添加质量分数3%海泡石和质量分数2%EG,涂层厚度为1.0 mm时,钢材的耐火时间达到72 min。

膨胀石墨与纳米分离技术

天然石墨鳞片经化学法进行插层后,形成一种层间化合物,在高温下,层间化合物会因热分解而使石墨层间沿着垂直方向膨胀数百倍,而形成一发泡碳材料,这种材料称为膨胀性石墨。膨胀性石墨是由纳米石墨薄片组成。纳米石墨薄片是以高度规律之石墨层堆叠而成,厚度约20～50nm。再进一步使用纳米分离技术将纳米石墨薄片分离,并分散在树脂之中形成特殊的纳米石墨薄片复合材料。同时,探讨了几种物理法的纳米分散技术,以及用于分离纳米石墨薄片之原理。

碳材料在电双层电容器电极应用的最新研究

电容器与二次电池相比,有着显著的优点,尤其是高功率并能提供大电流的电双层(超级)电容器正是时代所需。对目前已用做电双层电容器电极材料的活性碳纤维、纳米碳管和膨胀性石墨的研究情况分别做了论述。与膨胀性石墨相比,如何发挥活性碳纤维和碳纳米管的实际电容效率是目前研究的重点。

Engineering properties and microstructure of expansive soil treated with nanographite powder

To reduce geological disasters caused by expansive soil,it is crucial to use a new type of modified material to rapidly improve soil strength instead of traditional soil improvement materials such as lime and cement.Nanographite powder(NGP)has excellent properties,such as high adsorption,conductivity,and lubrication,since it has the characteristics of small size,large specific surface area,and high surface energy.However,previous studies on the improvement of expansive soil with NGP are not processed enough.To study the improvement effect of NGP on expansive soil,non-load swelling ratio tests,consolidation tests,unconfined compressive strength tests,mercury injection tests,and micro-CT tests on expansive soil mixed with different NGP contents were performed.The results show that the non-load swelling ratio,mechanical properties,and porosity of expansive soil show some increasement after adding NGP.The strength of expansive soil reaches the maximum when the NGP content is 1.450%.The cumulative mercury volume and compressive strain of expansive soil reach the maximum with the 2.0%NGP content.Finally,the modification mechanism of swelling,compressibility,microstructure,and compressive strength of expansive soil by NGP is revealed.