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含能材料低温松弛WLF方程的两种求值法
引用本文:刘子如,秦亚萍,孔扬辉,阴翠梅,罗阳. 含能材料低温松弛WLF方程的两种求值法[J]. 推进技术, 1999, 20(1): 88-91
作者姓名:刘子如  秦亚萍  孔扬辉  阴翠梅  罗阳
作者单位:西安近代化学研究所,西安,710065
摘    要:通过玻璃化转变温度和表观活化能以及由VFT方程导得WLF方程粘弹系数的两种新计算方法。用该方法分别计算10个体系的粘弹系数,结果表明,用DSC技术可以获得WLF方程,3种计算方法获得的粘弹系数符合较好。

关 键 词:高能材料,粘弹性,活化能,转变温度

TWO METHODS USED TO CALCULATE WLF EQUATION OF LOW TEMPERATURE RELAXATION FOR ENERGETIC MATERIALS
Liu Ziru,Qin Yaping,Kong Yanghui,Yin Cuimei and Luo Yang. TWO METHODS USED TO CALCULATE WLF EQUATION OF LOW TEMPERATURE RELAXATION FOR ENERGETIC MATERIALS[J]. Journal of Propulsion Technology, 1999, 20(1): 88-91
Authors:Liu Ziru  Qin Yaping  Kong Yanghui  Yin Cuimei  Luo Yang
Abstract:Two methods which were derived from the temperature and apparent activation energy at glass transition and from VFT equation were used to calculate the viscoelastic coefficients in WLF equation.The viscoelastic coefficients of ten systems were calculated with the two methods respectively.The results show that the WLF equation can be obtained by DSC,and the viscoelastic coefficients obtained from three methods are in good agreement
Keywords:Energetic material  Viscoelasticity  Activation energy  Transition temperature
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