用于非接触温度测量的装置

本发明涉及用于非接触温度测量装置，它包括一个探测器，从被测物体上的一个受测点辐射的电磁辐射可以利用成像光学器件成象于其上。它还具有一个瞄准装置，用来识别被测物体上的受测点的位置和／或尺寸，该瞄准装置包含用来提供至少两个瞄准光束的光源，其中，在一个经济和可靠的实施例中，为各瞄准光束的生成提供一个独立的光源。     

pH/温度双重敏感性微凝胶的合成与应用

智能微凝胶是一类具有独特物理、化学性质的聚合物网络和溶剂组成的体系, 在众多的领域具有潜在的应用.本文介绍了近年来pH和温度双重敏感性微凝胶的研究概况、制备方法及其在药物控制释放、分离纯化和光子晶体方面的应用.     

立规聚甲基丙烯酸热表征研究

本文对不同立构的聚甲基丙烯酸(PMAA)进行了热表征。实验结果表明,在30℃～200℃内未出现玻璃化转变。间同PMAA分别在-245℃和-280℃发生脱水反应和脱羧,而全同PMAA只在-185℃观察到脱水反应。这种热稳定性的明显差别与不同立构PMAA链上相邻羧酸距离有关。实验数据证实PMAA脱水反应为无规反应,服从一级动力学反应方程。脱水温度和间同立构含量成正比,脱水反应活化能间同PMAA比全同PMAA高～7Kcal/mol。     

微库仑法测定硫注意事项

根据微库仑法测定硫的基本原理和仪器本身的特点，分析了微库仑法测定硫时，电流、磁场、温度、气体流量、滴定池、电解液等因素对测定结果的影响，探讨了影响机理，提出了应注意的事项。     

一种统一处理稀溶液的温度、压力和浓度关系的方法

运用Gibbs-Duhem方程统一处理稀溶液与纯溶剂的气态、液态和固态平衡时的温度、压力和浓度相互之间的关系,由此不仅能直接导出稀溶液的依数性质,而且能给出用于研究沸点上升和凝固点下降的模型中稀溶液的压力与温度、压力与浓度的关系以及渗透压模型中的温度与渗透压、温度与溶液浓度的关系。     

碳纤维微电极研究(Ⅺ)——利用温度效应测定电极反应的热力学和动力学参数

研究了温度对碳纤维微电极上伏安曲线的影响及温度与电极电位的关系,测定了电极反应的热力学参数.由电流与温度的关系测定了去极剂的扩散活化能E_(al)和D_o,利用微电极具有高速传质的特性,测定了常规电极上为可逆反应的电极反应标准速率常数(?),并通过(?)与温度的关系测定了电极反应的活化能.     

脱水KFI沸石中钾离子分布的模拟退火研究

基于四个固定的参量设值：阳离子位能差E_M2-E_M1=25.50 kJ/mol、 E_M3-E_M1=-10.73 kJ/mol和最近邻阳离子对互作用能W₁₂=45.6 kJ/mol、 W₁₄=0.56 kJ/mol以及一个温度依赖的参量E_M4-E<     

氯化聚乙烯弹性体的固相法合成

讨论了以固相法合成氯化聚乙烯（ＣＰＥ）弹性体的过程．实验结果表明，以固相氯化反应所得的ＣＰＥ，其大分子链上Ｃｌ取代基的分布比水相悬浮法更均匀．氯化过程的温度直接影响氯化速度及分子结构，如残留结晶、氯分布等．而聚乙烯颗粒表面与内部的氯化程度取决于氯化速度．大分子链上Ｃｌ取代基对邻近基团的氯化起阻碍作用     

Effects of Calcination Temperature on the Acidity and Catalytic Performances of HZSM-5 Zeolite Catalysts for the Catalytic Cracking of n-Butane

The acidic modulations of a series of HZSM-5 catalysts were successfully made by calcination at different treatment temperatures, i.e. 500, 600, 650, 700 and 800 ℃, respectively. The results indicated that the total acid amounts, their density and the amount of B-type acid of HZSM-5 catalysts rapidly decreased, while the amounts of L-type acid had almost no change and thus the ratio of L/B was obviously enhanced with the increase of calcination temperature (excluding 800 ℃). The catalytic performances of modified HZSM-5 catalysts for the cracking of n-butane were also investigated. The main properties of these catalysts were characterized by means of XRD, N2 adsorption at low temperature, NH3-TPD, FTIR of pyridine adsorption and BET surface area measurements. The results showed that HZSM-5 zeolite pretreated at 800 ℃ had very low catalytic activity for n-butane cracking. In the calcination temperature range of 500-700 ℃, the total selectivity to olefins, propylene and butene were increased with the increase of calcination temperature, while, the selectivity for arene decreased with the calcination temperature.The HZSM-5 zeolite calcined at 700 ℃ produced light olefins with high yield, at the reaction temperature of 650 ℃ the yields of total olefins and ethylene were 52.8% and 29.4%, respectively. Besides, the more important role is that high calcination temperature treatment improved the duration stability of HZSM-5zeolites. The effect of calcination temperature on the physico-chemical properties and catalytic performance of HZSM-5 for cracking of n-butane was explored. It was found that the calcination temperature had large effects on the surface area, crystallinity and acid properties of HZSM-5 catalyst, which further affected the catalytic performance for n-butane cracking.