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1)  monomer dropping
单体滴加
1.
The content of catalyzer, emulsifier and monomer dropping rate on the particle size and size distribution of microemulsion was discussed.
讨论了催化剂用量、乳化剂用量、加料方式、单体滴加速度对微乳液粒径及粒径分布的影响。
2)  monomer dropping method
单体滴加法
1.
Polyurethane-poly(fluorinated acrylate)(FPUA)hybrid latices were synthesized from pre- prepared polyurethane seed latex,dodecafluoroheptyl methacrylate(DFMA)and acrylate monomers by monomer pre-emulsification and monomer dropping methods separately.
首先制备了聚氨酯(PU)种子乳液,再以甲基丙烯酸十二氟庚酯和丙烯酸酯为单体,通过单体滴加法和单体预乳化法两种不同的乳液聚合方法制备了聚氨酯-氟化聚丙烯酸酯(FPUA)复合乳液。
3)  Unit heating
单体加热
4)  add drop by drop
滴加
5)  single droplet
单滴
1.
The combustion characteristics of asphalt fuel as single droplet was examined with experiments in this paper.
本文对沥青单滴的燃烧进行了初步的实验研究。
2.
WT5”BZ]Since the single droplet combustion is one of the basic process in the liquid fuel spray combustion,it is very important to study the basic process so as to further improve and perfect the combustion process.
建立了单滴燃料燃烧过程的计算模型和数值方法 ,并用之计算单滴燃料的蒸发和燃烧过程。
3.
An investigation of the ignition delay time for oil-water emulsion with additional more volatile liquid fuel as single droplets is conducted.
本文研究了较组份添加剂对单滴乳化油着火规律的影响。
6)  doubled haploid
加倍单倍体
1.
Genetic analysis of five fruit traits had been done based on a doubled haploid population of Capsicum annuum L.
以一个牛角椒组合(‘97403’ב97410’杂交而成)作为供体,通过花药培养技术构建了103个加倍单倍体(DH)系组成的DH群体,再以此DH群体为试验材料,对该群体果实性状进行遗传分析。
2.
By using a doubled haploid population(DH) containing 67 DH lines derived from anther culture of F1 cross between Balilla (japonica) and Nanjing 11 (indica), an RFLP map was constructed, which consisted of 131 RFLP markers covering all 12 linkage groups at an average distance 14.
利用籼稻品种南京11和粳稻品种巴利拉的F1花药进行组织培养,获得67个加倍单倍体植株(DoubledhaPloid,DH)。
补充资料:无柄液滴法、躺滴法、座滴法等
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性质:又称无柄液滴法、躺滴法、座滴法等。根据液面外形求算表(界)面张力的一种方法。当待测液液滴稳定地停在水平固体表面上,其外形与液体表面张力γ有关。根据巴什弗思–亚当斯(Bashforth-Adams)方程可有以下关系式ρ1和ρ2分别为待测液体及液滴外介质的密度,g为重力加速度,β为形状因子,b为大小因子。当液体与固体表面接触角大于90°时可根据测出的液滴的赤道半径及其与液滴顶点的垂直距离数值查表得出相应的β及b值,从而算出表面张力γ。本法简便,适用于吸附平衡时间长的体系和低表面张力的测定;也能用于测定界面张力及熔融金属的表(界)面张力。

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