1·The silicone conveniently comprises a polysiloxane.
硅酮可方便地由聚氧硅烷组成。
2·Research progress of polysiloxane core-shell particles in recent years was reviewed.
综述了近几年聚硅氧烷核壳粒子的研究进展。
3·Polysiloxane with pendent carbazole and its derivative was designed and synthesized.
设计并合成了含咔唑衍生物的聚硅氧烷发光材料。
4·The hydroxide polysiloxane is one of the important products of the organic silicon industry.
羟基聚硅氧烷是有机硅工业的重要产品之一。
5·The mechanical properties of polysiloxane composites at high temperature were investigated.
研究了硅树脂复合材料高温下力学性能的变化。
6·It has shown that this polyether modified polysiloxane defoamer provides good defoaming effect.
结果显示聚醚改性有机硅消泡剂具有良好的消泡性能。
7·Polysiloxane is being used extensively in many fields for its good physical and chemical performance.
硅氧烷具有优异的物理、化学性能,在众多的领域中得到广泛应用。
8·Structure characterization and film morphology of polyether/UV-absorbing groups containing polysiloxane;
利用红外光谱及核磁共振法表征了双烷基聚醚的端基结构。
9·Silicone (polysiloxane) : Any of a diverse class of polymers manufactured as fluids, resins, or elastomers.
硅酮(亦称聚硅氧烷):可制成液体、树脂和弹性体多种形态的聚合物。
10·The present invention relates to polysiloxane and the synthesis of photoresist containing the said polysiloxane.
本发明涉及聚硅氧烷(硅倍半氧烷)和含有所述聚硅氧烷的光致抗蚀剂的新合成方法。
1·The hydroxide polysiloxane is one of the important products of the organic silicon industry.
羟基聚硅氧烷是有机硅工业的重要产品之一。
2·Research progress of polysiloxane core-shell particles in recent years was reviewed.
综述了近几年聚硅氧烷核壳粒子的研究进展。
3·The kinds, synthetic methods, properties and applications of epoxy - polysiloxane modified systems have been summarized in this paper, including some recent progress of the authors.
本文论述了环氧—聚硅氧烷改性体系的种类、制备方法、性能特征及应用,并介绍了笔者所在课题组在该体系中研究的新结果。
4·Morphology of functional polysiloxane film and their orientation on fiber have been observed and studied by an atomic force probe microscope (AFM) and other instruments.
用原子力探针扫描电镜AFM等仪器对聚硅氧烷的膜形态及其排列方式作研究。
5·The damping property of silicone rubber can be improved by designing and synthesizing of high-molecular polysiloxane damping agent.
设计制备大空间位阻的活性聚硅氧烷阻尼剂是提高航空硅橡胶阻尼性能的主要途径。