对高分子聚合膜渗透分离油中溶解气体的基本原理进行了深入分析。
Resolve inside to the high polymers membrane permeation separation oil the basic principle of the gas proceeded the thorough analysis.
本文提出了一种利用紫外—可见光分光光度仪定量评价高分子膜溶解速度的方法。
This paper presents a method for quantitative evaluation of the solubilizing speed of high molecular film by using UV-visible light spectrophotometry.
设计建设成一套能把粉状的高分子聚合物进行分散、溶解、熟化、稀释,并与碱溶液按一定比例混配的地面工艺装置。
A set of technology plant has been designed and constructed, which can make the macromolecular polymer disperse, dissolve, vulcanization and 'dilute and mixed with alkali solution with definite ratio.
本文综述了离子液体的合成、检测、对高分子材料的溶解及降解性能及在萃取分离中的应用。
In this paper, the synthesis and determination methods, dissolving and degradation property of ionic liquids and the application in separation were summarized.
研究了水溶性高分子涂料在其溶解过程中的吸声机理。
Attenuation was paid to the study on the sound absorption mechanism of water-soluble polymer during dissolving.
进而讨论了溶剂的含量、溶解度参数、混合溶剂挥发速率对碳系填充型导电高分子聚合物导电性能的影响。
The effects of the content of solvent and the solubility parameter of solvent on the conductivity of the carbon filled conductive composites are discussed.
根据连续分层介质中声波传播理论建立了计算水溶性高分子溶解过程中声衰减的数学模型。计算结果与实验结果一致。
Depending on the experimental result and the theory of sound wave propagation in layered medium, a mechanism of gradient water-soluble polymer solution was developed.
证明采用UNIFAC及其改进方程预测小分子在高分子膜中的溶解行为是一种可行性较高的研究方法。
The results show that improved UNIFAC model is a high feasible research method to predict the solubility of small-molecule solvents in membrane.
如何对瓜尔胶高分子链进行分子设计和修饰,提高其溶解性能和增稠效率一直是备受关注的问题之一。
How to design and modify the chain of guar gum polymer, to improve its solubility and thickening efficiency has always been one of the issues of concern.
本论文的主要目的是基于渗透汽化过程提出的溶解扩散模型,研究汽油组分小分子在高分子膜材料中的溶解行为和扩散行为。
The aim of this paper is to study the solution and diffusion behavior of small-molecule solvent in polymer membrane based on the solution-diffusion model.
高粘性是溶解在液相连续相的高分子的存在造成的。
The high viscosity results from the presence of dissolved polymer in a continuous liquid phase.
为制造出栅格支架,研究人员先利用许多微小的圆球同高分子材料一起成型,然后将圆球溶解,最终获得具有完美小孔几何形状的栅格支架。
To create the scaffolds, scientists molded the polymer with tiny spheres ordered like billiard balls. Then, they dissolved the spheres to leave the perfect geometry of pores in the scaffold.
为制造出栅格支架,研究人员先利用许多微小的圆球同高分子材料一起成型,然后将圆球溶解,最终获得具有完美小孔几何形状的栅格支架。
To create the scaffolds, scientists molded the polymer with tiny spheres ordered like billiard balls. Then, they dissolved the spheres to leave the perfect geometry of pores in the scaffold.
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