通过选用合适的热力学模型,模拟计算了不同种类的冷凝介质,不同组成分率对聚合体系物性的影响。
With a suitable thermodynamics model, a simulation was taken to investigate the effects of various fraction of various inert medium on the heat properties of polymerization system.
从热力学、传质动力学、相分离机制和固化过程几方面综述了浸入凝胶过程中聚合物膜形成机理的研究现状。
The mechanism for membrane formation by immersion precipitation processes was reviewed based on the thermodynamics, mass transfer dynamics, mechanism of phase separation and gelation process.
介绍聚合物的相容性,包括热力学分析、 聚合物相容性的判断方法以及改善聚合物相容性的方法。
The theories of compatibility of polymers, which consist of thermodynamics analysis, determination and improvement methods of compatibility etc. , are presented in this chapter.
提出了一种基于不可逆热力学和纯弯曲理论的力电耦合模型,以描述和预测离子聚合物金属复合材料的力电特性。
As a novel kind of sensor and actuator materials, Ionic Polymer Metal Composite (IPMC) has been used in more and more engineering applications fields.
考察了温度、流速和流动相组成对酚类样品的保留、分辨、柱效和系统压力的影响,探讨了酚类样品在聚合物柱上的热力学行为。
The effects of temperature, flow rate and composition of mobile phase on retention, resolution, column efficiency and the pressure of the system were examined.
这本手册提供对理解聚合物溶液是必要的的高压的热力学的数据的唯一的完整的收集。
This handbook provides the only complete collection of high-pressure thermodynamic data that is essential for understanding polymer solutions.
流动场诱导聚合物结晶不仅是一个非平衡的热力学基础问题,对于指导聚合物加工过程和控制产品的最终性能有着同样重大的意义。
Flow-induced crystallization of polymers is not only a fundamental Nonequilibrium thermodynamic problem but also of importance for polymer processing and the final properties of polymer products.
采用静态法研究了该聚合物对青蒿素吸附过程的热力学和动力学特性,对吸附过程进行控制机理判断。
The control mechanism of the adsorption process was also investigated. The experimental results showed that the copolymer possessed excellent adsorption performance for artemisinin.
采用静态法研究了该聚合物对青蒿素吸附过程的热力学和动力学特性,对吸附过程进行控制机理判断。
The control mechanism of the adsorption process was also investigated. The experimental results showed that the copolymer possessed excellent adsorption performance for artemisinin.
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