The use surface plasmon resonance to determine the optical parameters of UV-adhesive and control polymerization process

H. Dorozinska, G. Dorozinsky, V. Maslov, N. Kachur
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引用次数: 3

Abstract

Ultraviolet adhesives are widely used in the manufacture of precision optical devices. It is known, that adding fillers to the glue reduces shrinkage after polymerization, reduces internal stresses, improves the reliability of the connection, and also allows you to control the optical properties of the connecting layer. By varying the amount and composition of the filler, we can change the refractive index of the compound, as well as improve the processability of the compound due to faster polymerization. The kinetics of polymerization studied on surface plasmon resonance device "Plasmon". We used UV-spectroscopy an fluorescence spectroscopy for investigation glue`s properties. Dependences of the reflection coefficient R on the angle of incidence of laser radiation onto the samples with non-polymerized and polymerized adhesives are measured. The kinetics of polymerization process was determinate. Measurements of the absorption coefficients inherent to the structures glass – adhesive – glass within the range 200…400 nm was performed. The spectra of fluorescence inherent to the structures glass – adhesive – glass within the range 400…700 nm are measured. The obtained results show that the SPR method is informative and can be applied for investigations and optimization of UV-adhesive composition. Introduction of organosilicon acrylates with high dispersion as impurities in these adhesives enables to increase the velocity of adhesive polymerization.
利用表面等离子体共振技术测定uv胶粘剂的光学参数,控制聚合过程
紫外胶粘剂广泛应用于精密光学器件的制造。据了解,在胶水中加入填料可以减少聚合后的收缩,减少内应力,提高连接的可靠性,还可以控制连接层的光学性能。通过改变填料的数量和组成,我们可以改变化合物的折射率,以及由于更快的聚合而提高化合物的可加工性。在表面等离子体共振装置“等离子体”上研究聚合动力学。用紫外光谱法和荧光光谱法研究了胶水的性能。测量了非聚合和聚合胶粘剂样品的反射系数R与激光入射角度的关系。测定了聚合过程的动力学。在200 ~ 400 nm范围内测量了玻璃-胶粘剂-玻璃结构固有的吸收系数。测定了玻璃-胶粘剂-玻璃结构在400 ~ 700 nm范围内的荧光光谱。所得结果表明,SPR方法信息量大,可用于研究和优化uv胶粘剂的组成。在这些粘合剂中引入具有高分散性的有机硅丙烯酸酯作为杂质,可以提高粘合剂聚合的速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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