1) low solidification point naphthene-base oil
低温磺化
2) oligo-ether sulfonate
磺化低聚醚
1.
A novel solid polymer electrolytes based on polyester-urethane elastomer with oligo-ether sulfonate as plasticizers was prepared.
结果表明,通过选取适当平均相对分子质量的磺化低聚醚以及通过控制磺化低聚醚的质量分数,可以优化聚氨酯固体电解质体系的离子导电性能。
3) low-temperature oxidation
低温氧化
1.
Experimental study on coal low-temperature oxidation and oxygen-adsorption;
煤低温氧化与吸氧试验研究
2.
Researches in Hopcalite catalyst for carbon monoxide low-temperature oxidation;
CO低温氧化霍加拉特催化剂的研究
3.
Advances in research on reaction kinetics of PX low-temperature oxidation;
对二甲苯低温氧化反应动力学研究进展
4) low temperature oxidation
低温氧化
1.
Changes in low temperature oxidation process of gas coal chemical base agglomerate;
气煤的化学基团在低温氧化过程中的变化
2.
Study on hydrocarbon composition variation through low temperature oxidation of injected air and light crude oil;
注空气轻质原油低温氧化油气组分变化研究
3.
Experiment of improved oil recovery by air foam injection low temperature oxidation process
注空气泡沫低温氧化工艺提高采收率试验
5) low-temperature setting
低温固化
1.
Investigation on low-temperature setting bismaleimide resin system for filament winding;
缠绕用无溶剂低温固化双马来酰亚胺树脂体系
2.
The advantages of CS-1 solidification grains are low-temperature setting, short consolidation periodand.
试验表明,CS-1防砂固结颗粒具有低温固化,固结时间短,固结强度高的特点。
6) ageing at low temperature
低温陈化
1.
Catalytic synthesis of isooctyl chloroacetate with SO_4~(2-)/ZrO_2-Al_2O_3 solid superacid prepared by ageing at low temperature;
低温陈化法制备SO_4~(2-)/ZrO_2-Al_2O_3固体超强酸催化合成氯乙酸异辛酯
补充资料:脲、甲醛、磺化-2-甲基苯酚、磺化苯酚的缩合物钠盐
CAS:68441-84-9
分子式: (C7H8O·C6H6O·CH4N2O·CH2O·Na)x
中文名称: 脲、甲醛、磺化-2-甲基苯酚、磺化苯酚的缩合物钠盐
英文名称: Urea, polymer with formaldehyde, sulfonated 2-methylphenol and sulfonated phenol, sodium salt
urea, polymer with formaldehyde, sulfonated 2-methylphenol and sulfonated pheno
分子式: (C7H8O·C6H6O·CH4N2O·CH2O·Na)x
中文名称: 脲、甲醛、磺化-2-甲基苯酚、磺化苯酚的缩合物钠盐
英文名称: Urea, polymer with formaldehyde, sulfonated 2-methylphenol and sulfonated phenol, sodium salt
urea, polymer with formaldehyde, sulfonated 2-methylphenol and sulfonated pheno
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条