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《Composite Interfaces》2013,20(3-4):169-176
The water sorption properties of Precipitated Calcium Carbonate (PCC) formulations have been studied in relation to the rheological behaviour. Uncoated mineral fillers (median diameter 0.85 μm) have been dispersed in an organic liquid used as plasticizer, a dioctylphthalate (DOP), at a concentration of 25% by weight (volume fraction of about 11%). Water sorption isotherms onto PCC in air and in the organic matrix have been constructed. Measurement of water concentration in the DOP permits a complete evaluation of water exchanges at the inorganic (mineral)/organic (plasticizer) interface. Evolutions of yield stress, storage modulus and loss modulus have been determined as functions of the water activity in the system. A drastic change of rheological properties has been observed for water activities above 0.3. 相似文献
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关于用函数形式确切地描述吸附等温线已有不少研究.沈中和等认为,难于找到适合各种形状吸附等温线的理想函数形式,建议采用线性插值.但线性插值显然会使计算结果带来额外偏差.Buchner等和Zingales等曾提出用函数平滑或拟合整个吸附等温线,但此法受所选函数形式的限制并存在拟合误差,无法如实描绘某些吸附等 相似文献
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自溶液中的吸附XIII.硅胶自环己烷-正脂肪醇和水-正脂肪醇中吸附TRITONX-100 总被引:1,自引:0,他引:1
测定了硅胶和活性炭自水、环己烷和正丁醇中吸附TRITON X-100的等温线,提出了TRITON X-100在硅胶-环己烷界面上形成单分子层,在硅胶-水界面上形成双分子层的吸附模型,测定了硅胶自环己烷-正脂肪醇(C2,C4,C8和C12)和水-正脂肪醇(C2和C4)混合溶剂中吸附TRITON X-100的等温线,自环己烷-正脂肪醇中的吸附时,醇的烃链越短,浓度越大,降低TRITON X-100的吸附作用越显著.自水-正脂肪醇中吸附时,正丁醇降低TRITON X-100的吸附作用比乙醇时更显著,但当TRITON X-100的浓度较低时,正丁醇(0.5mol.dm[-3])的存在却使TRITON X-100的吸附有所增加。 相似文献
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用测定吸附等温线法研究乙胺、正戊烷和乙醇在疏水高硅FAU沸石上的吸附热效应。根据Clapeyron-Clausius方程,处理吸附等温线,得到不同覆盖度C(C=被吸附分子数/晶胞)的等量吸附热Qst(C)(一定覆盖度C时由Clapeyron-Clausius方程计算的吸附热)及平均等量吸附热Qst^*(一定温度区间里等量吸附热Qst的平均值),以及Qst^*与沸点蒸发热△Hv的差值△H1(定义为相互作用强度△H1=Qst^*-△Hv)。所研究的三种有机分子的△H1的次序为△H1(乙胺)>△H1(正戊烷)>>△H1(乙醇)。这与AT值(定义为脱附温度Td与吸附质的沸点温度Tb的差值,无需单位)有正相关关系。由AT值观察到的高硅FAU沸石Si-O骨架与被吸附乙胺之间可能存在的强相互作用、为本研究测定的热力学定量数据△H1值所证明。 相似文献
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自溶液中的吸附 VII: 硅胶自环己烷中吸附醇,酮和酯 总被引:3,自引:0,他引:3
The adsorption isotherms of some monofunctional alcohols, ketones and esters from cyclohexane onto silica gel have been determined at 30`C and 10`C. The silica gel used bad a BET area of 417 m2/g and an average pore radius of 45A. The concentrations of free and associated hydroxyls on the silica gel were 1.4 and 4.1/100A^2 respectively. The adsorption order is cyclohexanol>n-octyl alcohol>cyclohexanone>methyl isobutyl ketone>n-propyl acetate=n-amyl acetate. The adsorption decreases with increasing temperature as normal. Except at very low concentrations, the isotherms can be represented by the Langmuir equation. The limiting adsorption, nms, on the silica gel does not accord with the stoichiometric ratio (1:1) between the free surface hydroxyl groups of the adsorbent and the adsorbate. In addition to surface conditions and the functional group of the adsorbate, it seems that the limiting adsorption is also controlled by the other factors, including temperature, solvent, and, sometimes the chain length of the adsorbate. The standard free energy (ΔG0) and standard enthalpy (ΔH0) of the adsorbates in adsorptien processes have been determined from the Langmuir parameters. The results indicate that the absolute value of ΔH0 is higher than that of ΔG0 (in other words, standard entropy ΔS0 is negative), as in the case of the adsorption of gases. Since there is practically no difference in ΔG0 or ΔH0 of adsorption between alcohols or esters, it is suggested that in dilute solution only the polar groups take part in adsorption, and the hydrocarben chains remain in solution during the adsorption process. For ketones, the absolute values of ΔG0 and ΔH0 are somewhat lower for methyl isobutyl ketone than that for cyclohexanone. A possible explanation is that in the adsorbed state the isobutyl chain of the methyl isobutyl ketone may somewhat close to the surface and thus decreases the adsorption and changes the ΔG0 and ΔH0. 相似文献
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