共查询到20条相似文献,搜索用时 500 毫秒
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针对广州开发区SDK-D-2地块砌石挡土墙软弱地层,采用单液静力注浆进行灌浆加固。详细论述了灌浆处理工程中的材料及工艺设备、工艺参数、工艺流程,异常情况技术处理及检测措施,分析了灌浆效果。实践表明处理方法有效,达到了工程设计标准。 相似文献
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本文报道了磁处理对明胶中单注法制备卤化银乳剂的影响,SEM照片及粒径分布曲线表明,在本实验磁场条件下,经磁化处理的乳剂较未经处理的乳剂,平均粒径大,颗粒分布均匀,晶粒分散状态良好.机理分析认为磁场处理影响了溶液中离子的水合程度,而且能增加溶液的有序程度,这两方面的因素导致了磁处理和未经磁处理之间的差异.磁处理能够影响明胶中卤化银的结晶过程,这可能为控制制备胶体中颗粒的大小及分布提供新思路. 相似文献
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处理方法对多壁碳纳米管结构及负载Ru催化剂氨分解反应活性的影响 总被引:1,自引:1,他引:0
分别用H_2O_2、强碱(NaOH、 KOH)和强酸HNO_3处理CNTs.以处理后的CNTs为载体、通过浸渍RuCl_3水溶液结合高温H_2还原制备Ru/CNTs催化剂,并将其应用在氨分解催化反应中.利用XRD、 TPR、 TPD-MS表征手段研究了Ru在CNTs表面的分散、还原性能及CNTs表面化学基团,探究催化剂结构-性能间构效关系.结果表明,强碱及双氧水处理CNTs,为其表面引入了数量适宜的羧基、酸酐、酚等官能团,而传统硝酸处理则引入了大量的羧基、酸酐、酯、内酯、酚、醌和羰基等官能团,对CNTs本征结构性质影响很大.经强碱及双氧水处理CNTs上负载Ru后所得催化剂的效果明显优于传统硝酸处理CNTs上负载Ru催化剂.我们发展的CNTs的新型处理方法为研制高活性Ru/CNTs催化分解氨催化剂提供了新的思路. 相似文献
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LaCl3对轮藻光合色素含量及抗氧化酶活性的影响 总被引:1,自引:1,他引:1
研究了LaCl3对轮藻光合色素含量及抗氧化酶活性的影响,La3+浓度分别为0,0.2,1.0和5.0 μmol·L-1.结果表明0.2和5.0 μmol·L-1La3+处理降低了轮藻叶绿素b的含量,5.0 μmol·L-1 La3+处理降低了叶绿素a+b的含量;类胡萝卜素含量在1.0 μmol·L-1 La3+处理组显著高于对照.随着La处理浓度的提高超氧化物歧化酶的活性逐渐升高,处理组谷胱苷肽过氧化物酶活性均显著高于对照,且在1.0 μmol·L-1La处理组达到最大值,0.2和5.0 μmol·L-1 La3+处理将抑制过氧化氢酶活性,其变化规律与叶绿素b相似.实验浓度的La3+处理可能引起了轮藻植株的氧化损伤,作为应激反应,GSH-Px酶活性及类胡萝卜素含量的升高在一定程度上缓解了氧化损伤. 相似文献
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计算高聚物增塑体系混合自由能新方法 总被引:1,自引:0,他引:1
高聚物增塑体系混合自由能与浓度关系 ΔGm=f(ω1) ,不仅反映了增塑体系热力学稳定性好坏 ,而且可以预测溶液各组分间的作用能力 [1,2 ] .通过实验可直接得到增塑体系混合自由能的相关数据 ,其中包括偏蒸气压值测量法、渗透压法、反相气相色谱法及小角 X射线散射法等[3~ 8] .这些方法可以测量增塑体系挥发性组分的偏摩尔化学位值 ,利用下面公式计算Δμ1/RT =ln(p1/p1,S)式中 p1,p1,S是某温度下增塑体系增塑剂的偏蒸气压值和纯增塑剂的饱和蒸气压 .1 现有的高聚物混合体系自由能 ηGm计算方法对于低分子溶液体系各组分的偏摩尔化学位Δ… 相似文献
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de Lucena Sérgio Luiz Miranda Everson Alves Santana Cesar Costapinto 《Applied biochemistry and biotechnology》1996,57(1):57-65
Applied Biochemistry and Biotechnology - Foam fractionation of proteins is especially advantageous in treating dilute solutions where other separation methods run into economical limitations.... 相似文献
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Free-energy perturbation (FEP) is considered the most accurate computational method for calculating relative solvation and binding free-energy differences. Despite some success in applying FEP methods to both drug design and lead optimization, FEP calculations are rarely used in the pharmaceutical industry. One factor limiting the use of FEP is its low throughput, which is attributed in part to the dependence of conventional methods on the user's ability to develop accurate molecular mechanics (MM) force field parameters for individual drug candidates and the time required to complete the process. In an attempt to find an FEP method that could eventually be automated, we developed a method that uses quantum mechanics (QM) for treating the solute, MM for treating the solute surroundings, and the FEP method for computing free-energy differences. The thread technique was used in all transformations and proved to be essential for the successful completion of the calculations. Relative solvation free energies for 10 structurally diverse molecular pairs were calculated, and the results were in close agreement with both the calculated results generated by conventional FEP methods and the experimentally derived values. While considerably more CPU demanding than conventional FEP methods, this method (QM/MM-based FEP) alleviates the need for development of molecule-specific MM force field parameters and therefore may enable future automation of FEP-based calculations. Moreover, calculation accuracy should be improved over conventional methods, especially for calculations reliant on MM parameters derived in the absence of experimental data. 相似文献
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Rezvanian Amir Beigzadeh Borhan Davaei Markazi Amir Hossein Halabian Mahdi 《Journal of Thermal Analysis and Calorimetry》2020,141(5):1559-1568
Journal of Thermal Analysis and Calorimetry - One of the methods of treating cancer is hyperthermia which is performed in several different ways. One of the recent treatment modalities is with... 相似文献
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A free energy perturbation (FEP) method was developed that uses ab initio quantum mechanics (QM) for treating the solute molecules and molecular mechanics (MM) for treating the surroundings. Like our earlier results using AM1 semi empirical QMs, the ab initio QM/MM-based FEP method was shown to accurately calculate relative solvation free energies for a diverse set of small molecules that differ significantly in structure, aromaticity, hydrogen bonding potential, and electron density. Accuracy was similar to or better than conventional FEP methods. The QM/MM-based methods eliminate the need for time-consuming development of MM force field parameters, which are frequently required for drug-like molecules containing structural motifs not adequately described by MM. Future automation of the method and parallelization of the code for Linux 128/256/512 clusters is expected to enhance the speed and increase its use for drug design and lead optimization. 相似文献
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Current status on the chemical aspects of nuclear fuel reprocessing is presented with special emphasis on the Purex process which continues to be the process of choice for the last four decades. Better decontamination from fission products, new methods for uraniumplutonium partitioning and removal of actinides from high active waste are challenging areas in process chemistry. The development work on TRUEX and DIAMEX process for treating high active waste is briefly described. An overview of pyrochemical processes, which are important for Integral Fast Reactor Concept, is presented. 相似文献