设计了一种新型光敏聚合物材料配方,并通过实验对比选定了合适的溶剂。
A new prescription of photopolymer is designed, and a proper solvent is chosen.
通用电气制造商(GE)制造换能器的过程是首先在打印台面喷撒一薄层含有光敏聚合物的陶瓷浆料。
The GE process for making a transducer begins by spreading onto the print table a thin layer of ceramic slurry containing a light-sensitive polymer.
对最近几年光敏聚合引发体系的研究进展进行了评述,并就一些新型光敏引发体系及引发机理进行了介绍。
In this paper, the recent developments of photoinitiators for curing have been introduced. Some new types of photoinitiators and its mechanism aspects of reactions are discussed.
这束光使人工晶体上的光敏物质聚合,并改变形状,这意味着眼科学家能够调节这些晶状体来改变它的功效。
This causes it to polymerise and then change shape, which means the ophthalmologist can tweak the lens to alter its power.
对所需的单体、聚合物等进行了合成,并对合成聚合物的基本物化性能及其用于光敏成像体系的成像性能进行较系统的研究。
Monomers and polymers in need were synthesized, and chemical and physical properties of these polymers and imaging performance of the photo-sensitive imaging system were investigated.
结论:不同材料的光敏树脂其聚合后的显微硬度存在差异。
Conclusion There was a significance difference on micro-hardness of light-cured composite resins.
简要介绍含二苯酮基的大分子光敏引发剂的合成制备、引发聚合机理及应用方面的研究进展情况。
This paper discusses, the synthesis, photoinitiation polymerization mechanism and applications of polymer photosensitized initiator containing side chain benzophenone chromophores.
其次,对含偶氮苯和聚甲基丙烯酸甲酯共聚的纤芯材料的聚合物光纤光敏特性进行了实验测试。
Then we tested the photosensitivity of POF whose core material was copolymer of azo-benzene and poly (methyl methacrylate) (PMMA) in experiment.
聚合物单体由于光敏感性好、折射率调制度大和分辨率高等优点在全息聚合物光栅、光了晶体和光相位调制器等器件中得到广泛的应用。
Good photon sensitivity, large index modulation and high resolution make monomer in a number of applications such as holographic polymer grating, photonic crystal and light phase modulator.
十分有趣的是该体系对甲基丙烯酸甲酯进行光敏自由基引发聚合的速率和其光解反应速率有很大的不同,本文对此现象进行了讨论。
It is interesting to find that the rate of photo-polymerization of MMA initiated by this system was different from the rate of photolysis. This phenomenon was discussed briefly.
十分有趣的是该体系对甲基丙烯酸甲酯进行光敏自由基引发聚合的速率和其光解反应速率有很大的不同,本文对此现象进行了讨论。
It is interesting to find that the rate of photo-polymerization of MMA initiated by this system was different from the rate of photolysis. This phenomenon was d...
十分有趣的是该体系对甲基丙烯酸甲酯进行光敏自由基引发聚合的速率和其光解反应速率有很大的不同,本文对此现象进行了讨论。
It is interesting to find that the rate of photo-polymerization of MMA initiated by this system was different from the rate of photolysis. This phenomenon was d...
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