1) Peudo-ternary-component
拟三元
2) Ternary phase diagram
拟三元相图
1.
The ternary phase diagram of four component was studied by titration.
用滴定法研究了新型阳离子表面活性剂(2-羟基-3-二甲基十四烷基铵基)丙基甲壳低聚糖(HDM-TAPC)、正丁醇、正己烷及水四组分体系的拟三元相图;利用电导法测定了HDMTAPC/正丁醇/10%正己烷/纯水四组分体系相图中微乳区的结构。
2.
The influence of acrylamide concentration in ternary phase diagram of Span 80-Tween 85/Isopar M/ acrylamide aqueous solution system has been investigated to optimize polyacrylamide technics by phase transfer emulsion polymerization.
其结果如下: (1)丙烯酰胺浓度对Span 80-Tween 85/Isopar M/丙烯酰胺-H_2O拟三元相图的影响:由于在高乳化剂含量的微乳液区域中,粒子表面覆盖的乳化剂分子数量较多,一方面,丙烯酰胺的助溶作用对微乳液区域的影响相对较小,而该作用则是不利于微乳液体系稳定的;另一方面,微乳液区的变化过程主要由丙烯酰胺助乳化作用决定,该作用有利于微乳液体系的稳定。
3) quasi-ternary phase diagram
拟三元相图
1.
In this paper,different amounts of n-hexanol as a co-emulsifier and cyclohexane as oil respectively,were used to systematically investigate their effects on the microemulsion region in the quasi-ternary phase diagram of the.
用Triton X-100/正己醇/环己烷/盐溶液的四元反相微乳液体系制备了纳米四水羟基硝酸氧铋((Bi6O4(OH)4)(NO3)6(H2O)4),研究了不同比例Triton X-100、正己醇、环己烷对微乳液体系的影响,绘制了反相微乳液体系的拟三元相图,确定了室温下微乳液法制取纳米四水羟基硝酸氧铋的最佳条件,制备出了棒状和片状两种产物,利用TEM、IR、XRD、TG-DSC等手段对产物的结构和性能进行了表征。
2.
By uniform experiments and whole experiments,the quasi-ternary phase diagram of the systems was given,through which the optimal proportion of the system was ascertained.
通过均匀实验和全面实验,绘制出体系的拟三元相图,并由相图得出体系的最佳比例。
3.
AEO_9/butanol/octane/ethanol non-aqueous reverse microemulsion system was selected and quasi-ternary phase diagram of this system with different compositions and at different temperatures was presented respectively.
采用脂肪醇聚氧乙烯九醚(AEO9)/正丁醇/正辛烷/乙醇体系,研究体系的组成设计,绘制不同组分配比和不同温度时的体系拟三元相图,最佳组成的质量分数为AEO9∶正丁醇∶正辛烷=29。
4) pseudoternary phase diagram
拟三元相图
1.
The optimal system of microemulsion was found out via pseudoternary phase diagram under given conditions.
首先对油包水(W/O)型微乳液进行了制备研究,利用拟三元相图探明了一定条件下的W/O型微乳液中的最佳体系。
2.
Acrcording to the pseudoternary phase diagrams of the system of kerosene-Span80/Tween80-acrylamide/water(aqueous solution of acrylamide),the polyacrylamide inversed-phase microemulsion latex was prepared by inversed-phase microemulsion polyreaction.
以绘制的Span80/Tween80-煤油-水(丙烯酰胺水溶液)拟三元相图为依据,选择高单体质量分数微乳液体系,在反应温度为40℃,引发剂用量为单体质量0。
3.
According to the pseudoternary phase diagram of the system of kerosene-Span80/Tween80-AM/AMPS/H_2O, a series of the inverse microemulsion of AM/AMPS are prepared.
根据绘制的AM/AMPS/H2O-Kerosene-Span80/Tween80体系的拟三元相图,配制了系列AM/AMPS反相微乳液,考察了相关因素对AM/AMPS反相微乳液聚合的影响。
5) Quasi-ternary system
拟三元体系
6) pseudo-ternary phase diagram
拟三元相图
1.
The effect of hydrocarbon chain of co-surfactant,chlorpyrifos solution(oil phase) content,chlorpyrifos content in oil,temperature,and water hardness were investigated by surfactant/cosurfactent/oil/water pseudo-ternary phase diagram to evaluate the factor effect in forming chlorpyrifos microemulsion.
为考察各因素对毒死蜱微乳液形成规律的影响,系统研究了助表面活性剂直链醇碳链长度、毒死蜱溶液(油相)含量、油相中毒死蜱的含量、温度及水质对表面活性剂/直链醇/毒死蜱溶液/水体系拟三元相图的影响规律。
2.
A series of inverse-microemulsion pseudo-ternary phase diagrams were obtained.
采用电导率法及Tyndall效应研究了白油/(Span80+Tween60)/(丙烯酰胺+丙烯酸钠)水溶液体系,得到了一系列反相微乳液的拟三元相图。
补充资料:《三元参赞延寿书》
《三元参赞延寿书》 《三元参赞延寿书》 养生学著作。五卷。宋末元初人李鹏飞撰集于1291年。作者自谓:宋咸淳四年(1268年)在杭州受官道人之教,始知人的年寿应有天元、地元、人元。三元共180岁。在此启发之下乃撰集此书。卷一论天元之寿,成人精气不耗;卷二为地元之寿,律人起居有常;卷三为人元之寿,教人饮食有节;卷四述神仙救世,却老还童真诀;卷五为神仙警世。现有道藏本。
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