1) black coloring agent
着色发黑剂
2) inorganic black coloring
无机着黑色
1.
Through a lot of experiments,a new technique of anodizing and inorganic black coloring of aluminum and aluminum alloysis investigated.
本文通过大量实验研究了一种新型铝及其合金阳极氧化的无机着黑色处理工艺,分析了发黑处理的原理和发黑处理液浓度对膜层性能的影响,并得出了最佳的工艺参数。
3) electrolytic blackening
电解着黑色
1.
The morphology and surface composition of blackening film was observed and analyzed, and the electrochemical process of metal ion in the electrolytic blackening was discussed by means of linear potential scanning method and cyclic vohammetry.
为了解决LY12铝合金电解着黑色存在的着变色和掉色问题,研究了LY12铝合金电解着黑色的工艺方法,观察了电解着黑色膜层的形貌,分析了膜层表面的成分,并用线性电位扫描法和循环伏安法探讨了电极反应过程中金属离子的电化学反应行为。
4) color black
着色用炭黑
5) Colouring agent
着色剂
1.
The influences of colouring agents on the dehydrochlorination of flexible PVC;
着色剂对软质聚氯乙烯脱氯化氢反应的影响
2.
Influence of Colouring Agent on Efficiency of Antioxidant and Light Stabilizer in Coloured Plastics Product;
着色剂对塑料制品中抗氧剂、光稳定剂效能的影响
3.
The crystallization process and kinetics of Li2O-Al2O3-SiO2(LAS) glass ceramic containing colouring agent such as Fe2O3,Co2O3 and Ni2O3 were investigated using differential thermal analysis,X-ray diffractometry,infrared and scanning electron microscope,and the effects of Co2O3 and Ni2O3 on the crystallization mechanism of LAS glass were analyzed.
以Li2O-Al2O3-SiO2(锂铝硅)微晶玻璃为研究对象,采用DTA、XRD、IR和SEM等测试技术研究含Fe2O3、Co2O3、Ni2O3锂铝硅玻璃的析晶动力学和晶化过程,分析着色剂成分Co2O3、Ni2O3对锂铝硅玻璃晶化过程及结构的影响机制。
6) Colorant
[英]['kʌlərənt] [美]['kʌlərənt]
着色剂
1.
Determination of colorant in meat product by HPLC;
高效液相色谱法测定肉制品中的着色剂
2.
Effect of Colorant in Feed on Growth and Digestive Enzyme Activities of Pelteobagrus fulvidraco;
饲料中着色剂对黄颡鱼生长和消化酶活性的影响
3.
The antimony ruby glass samples based on Na2O-CaO-SiO2 glass system and doped with colorant were obtained.
在Na2O-CaO-SiO2玻璃系统中引入着色剂,熔制锑红玻璃试样,讨论不同着色剂的用量、不同退火时间对试样透过率的影响。
补充资料:木材着色剂
分子式:
CAS号:
性质:着色物质在展色剂中所形成的一种溶液或悬浮液,用于透露木纹的装饰,在保持木材原有颜色的同时进一步美化所需要的颜色。通常包括水溶性着色剂、醇溶性着色剂和油溶性着色剂三类。
CAS号:
性质:着色物质在展色剂中所形成的一种溶液或悬浮液,用于透露木纹的装饰,在保持木材原有颜色的同时进一步美化所需要的颜色。通常包括水溶性着色剂、醇溶性着色剂和油溶性着色剂三类。
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