1) pseudo-phase portrait
伪相图
1.
In contrast to the pseudo-phase portrait reconstructed from raw vibration signals, the modified pseudo-phase portrait based on SVD is more regular because the noise can be reduced.
论述了延时嵌入相空间重构方法及其伪相图的获取技术 ,将这一方法用于大机组非线性故障的定性特征提取。
2.
With the theory of complicated system,this paper studies the method for restructuring the delayed embedded phase space of chaotic data of exchange rate,and the technology of obtaining its pseudo-phase portrait.
应用复杂系统理论研究了汇率混沌数据延时嵌入相空间重构方法及其伪相图的获取技术。
3.
Compared with the pseudo-phase portrait reconstructed from signal contained noise,the pseudo-phase portrait reconstructed after the wavelet threshold de-noising is more regular.
结果表明,小波分解后,不同尺度上信号和噪声的小波系数的分布规律明显不同,通过对其分析可以合理选择小波分解的尺度;在此基础上对小波系数进行阈值处理并重构,能有效地去除信号中含有的噪声,很好地保存信号的局部特征;去噪后信号的伪相图更加规则,关联维数估计值更加合理。
2) Pseudo Phase Portrait
伪相图
1.
As the effect of noise and the plane of attractor projection must be considered, this paper introduced a useful method of reconstruction of pseudo phase portrait based on singular value decomposition(SVD).
论述了通过延时嵌入相空间重构方法获取伪相图技术 ,将该技术用于大机组非线性故障的定性特征提取 ,并选取了故障实例进行分析 。
3) pseudo-coherence map
伪相干图
1.
Based on the theory of deformation decorrelation of the active ground fissures,we mainly investigates the positioning method of active ground fissures by analyzing the pseudo-coherence map of adaptively filtered differential interferogram.
根据活动地裂缝造成的形变去相干特征,分析了自适应滤波后的差分干涉图的伪相干图,并从中提取了所监测时间段的活动地裂缝的位置信息,将其与该时间段地面调查的地裂缝位置信息进行了比较。
4) pseudoternary phase diagrams
伪三元相图
1.
The formulations of baicalin nanoemulsion cosmetic were optimized by protracting the pseudoternary phase diagrams,taking isopropyl myristate,olefin oil,vitamin E,cremophor EL40,ethanol and baicalin to prepare baicalin nanoemulsion.
通过绘制伪三元相图优选处方,以肉豆蔻酸异丙酯(IPM)、液体石蜡和维生素E油为油相,蓖麻油聚氧乙烯醚(EL-40)为表面活性剂,乙醇为助表面活性剂制备黄芩甙纳米乳,用透射电子显微镜(TEM)、Nicomp388/ZetaPALS激光粒度测定仪分别考察了其形态和粒径;通过恒温加速实验检验了其稳定性。
2.
Methods The formulations of Fructus Perrillae oil nanoemulsion were optimized by drawing the pseudoternary phase diagrams and investigating the form, viscosity, particle size distribution, stability, conductance, and refractiratio.
方法绘制伪三元相图优选处方,考察制剂的形态、黏度、电导率、折光率、乳滴粒径分布及稳定性。
3.
METHOD Pseudoternary phase diagrams were drawn to evaluate the microemulsion area, then process parameters such as high-shear rotation speed and temperature were optimized; the stability studies was conducted under long term storage conditions; the safety study was processed with ocular irritation test on rabbit.
方法采用伪三元相图法研究了合适的乳化剂-辅助乳化剂-油相形成的微乳区域,并进一步优化剪切速率和乳化温度等工艺参数;通过长期稳定性试验评价了微乳的稳定性,并通过家兔眼刺激性试验评价了环孢素A眼用微乳制剂的安全性。
5) pseudotertiary phase diagram
伪三元相图
1.
In this paper,pseudotertiary phase diagrams for different aphid alarm pheromone microemulsion systems are drawn up,according to the border points of component concentrations in the diagrams,the transparent temperature range tests,the freeze-thaw tests and the heat storage tests of several formulas are carried on.
通过实验绘制出了以蚜虫报警信息素为原药的不同微乳体系的伪三元相图,通过分析相图中微乳区域边界点的组分浓度,选择合适微乳体系进行透明温度范围及冷贮稳定性和热贮稳定性试验。
6) pseudo-ternary phase diagram
伪三元相图
1.
Method: The quercetin self-emulsified formulation was optimized based on the quercetin solubility in different oils,and the self-microemulsified efficiency of various combinations of emulsifier and co-emulsifier evaluated using the pseudo-ternary phase diagram.
方法:通过测定药物在不同油相中的溶解度,研究油相与各种乳化剂、助乳化剂的配伍对自微乳效率的影响,并结合伪三元相图,筛选槲皮素自乳化制剂的处方。
2.
Self-microemulsions were prepared by titrating the mixture of oil,surfactant and cosurfactant with distilled water in 37℃ water bath and pseudo-ternary phase diagrams for these systems were conducted.
分别以油酸正丁酯、十四酸异丙酯为油相,吐温85、Cremophor-EL为表面活性剂,无水乙醇、异丙醇、1,2-丙二醇、正丁醇为助表面活性剂,在37℃水浴中,用水滴定上述三组分不同配比的混合物,绘制伪三元相图,并对自乳化系统进行研究。
3.
Based on the obtained pseudo-ternary phase diagrams,the effects of surfactants,cosurfactants and oils on the microemulsion were studied and the formulations were optimized.
通过绘制伪三元相图,考察多种乳化剂、助乳化剂和植物油对油包水微乳相行为的影响,并以载水量为指标进行优选。
补充资料:花卉的相克与相生(图)
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有些花卉,由于种类不同,习性各异,在其生长过程中,为了争夺营养空间,从叶面或根系分泌出对其他植物有杀伤作用的有毒物质,致使其与邻近的他种植物“结怨成伤、你死我活”。而有些花卉,也由于种类的不同,习性互补,叶片或根系的分泌物可互为利用,从而使它们能“互惠互利、和谐相处”。
当然,盆花的种植莳养,由于不种在同一盆钵中,因此可以不考虑根系分泌物的影响,只须考虑叶子或花朵、果实分泌物对放在同一室内空间的其他花卉之影响。如丁香和铃兰不能放在一起,否则丁香花会迅速萎蔫,即使相距20厘米,如把铃兰移开,丁香就会恢复原状;铃兰也不能与水仙花放在一起,否则会两败.俱伤,铃兰的”脾气”特别不好,几乎跟其他一切花卉都不够“友善”;丁香的香味对水仙花也不利,甚至会危及水仙的生命;丁香、紫罗兰、郁金香和勿忘我草莫种养在一起或插在同一花瓶内,否则彼此都会受伤害。此外,丁香、薄荷、月桂能分泌大量芳香物质,对相邻植物的生态有抑制作用,最好不要与其他盆花常时间摆放一块;桧柏的挥发性油类,会使其他花卉植物的呼吸减缓、定制生长,呈中毒现象。桧柏与梨、海棠等花木液避免摆在一块,否则易使其患上锈病。再则,成熟的苹果、香蕉等,最好也不要与含苞待放或正在开放的盆花(或插花)放在同一房间内,否则果实产生的某种气体也会使盆花早谢,缩短观赏时间。
能够友好相处的花卉种类有:百合与玫瑰种养或瓶插在一起,比他们单独放置会开得更好,花期仅1天的旱金莲如与柏树放在一起,花期可延长3天;山茶花、茶梅、红花油茶等;与山苍子摆放一起,可明显减少煤污病。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。