宇航材料工艺
宇航材料工藝
우항재료공예
AEROSPACE MATERIALS & TECHNOLOGY
2010年
2期
15-19,23
,共6页
张欣欣%乐恺%刘育松%王戈%倪文
張訢訢%樂愷%劉育鬆%王戈%倪文
장흔흔%악개%류육송%왕과%예문
绝热材料%二氧化硅气凝胶%分子运动论%热导率
絕熱材料%二氧化硅氣凝膠%分子運動論%熱導率
절열재료%이양화규기응효%분자운동론%열도솔
Insulating materials%Silica aerogel%Kinetic theory%Thermal conductivity
应用分子运动论对二氧化硅气凝胶的传热机理进行了研究.根据其微观结构特点,建立了纳米孔隙模型.考虑气体分子间的相互作用力,推导了纳米孔隙内气体的热导率,得到了二氧化硅气凝胶内气体热导率的表达式.建立了二氧化硅气凝胶固相结构单元导热模型,运用分子运动论推导了固相结构的热导率,获得了二氧化硅气凝胶的总体等效热导率.结果表明,影响二氧化硅气凝胶内气体热导率的主要因素是气体的平均分子自由程与分子之间以及分子与壁面之间的相互作用,固相结构单元的直径和接触界面的直径是影响固相结构单元热导率的主要因素,而二氧化硅气凝胶孔隙尺寸的分布严重影响其等效热导率.
應用分子運動論對二氧化硅氣凝膠的傳熱機理進行瞭研究.根據其微觀結構特點,建立瞭納米孔隙模型.攷慮氣體分子間的相互作用力,推導瞭納米孔隙內氣體的熱導率,得到瞭二氧化硅氣凝膠內氣體熱導率的錶達式.建立瞭二氧化硅氣凝膠固相結構單元導熱模型,運用分子運動論推導瞭固相結構的熱導率,穫得瞭二氧化硅氣凝膠的總體等效熱導率.結果錶明,影響二氧化硅氣凝膠內氣體熱導率的主要因素是氣體的平均分子自由程與分子之間以及分子與壁麵之間的相互作用,固相結構單元的直徑和接觸界麵的直徑是影響固相結構單元熱導率的主要因素,而二氧化硅氣凝膠孔隙呎吋的分佈嚴重影響其等效熱導率.
응용분자운동론대이양화규기응효적전열궤리진행료연구.근거기미관결구특점,건립료납미공극모형.고필기체분자간적상호작용력,추도료납미공극내기체적열도솔,득도료이양화규기응효내기체열도솔적표체식.건립료이양화규기응효고상결구단원도열모형,운용분자운동론추도료고상결구적열도솔,획득료이양화규기응효적총체등효열도솔.결과표명,영향이양화규기응효내기체열도솔적주요인소시기체적평균분자자유정여분자지간이급분자여벽면지간적상호작용,고상결구단원적직경화접촉계면적직경시영향고상결구단원열도솔적주요인소,이이양화규기응효공극척촌적분포엄중영향기등효열도솔.
The heat transfer mechanism of silica aerogel was studied by using the kinetic theory. Based on the features of the microstructure of silica aerogel, nanopore model was built. The expression of the thermal conductivity of gas in nanopore was derived with taking account of the interaction force of molecules. The thermal conductivity of gas in silica aerogel was achieved with the derived expression. A heat transfer model of solid matrix unit obtained from the structure of silica aerogel was developed. According to the kinetic theory, the effective thermal conductivity of silica aerogel was obtained. The results show that the average gas molecule free path, the interaction force of molecules and the force between molecule and wall are the major factors which effect the thermal conductivity of gas in silica aerogel, the diameters of solid matrix unit and contact interface are main factors affecting the thermal conductivity of solid matrix unit, the pore size distribution seriously affects the equivalent thermal conductivity of silica aerogel.
