结果是有机钛酸酯硅烷十八烷酸。
分离可溶性三甲基硅烷化(TMS)的衍生物的聚合分布。
Polymeric distribution of soluble trimethylsilylation (TMS) derivatives is separated.
三甲基甲硅烷基炔丙基溴的反应产物的产率为71%到84%。
The yields of products for the reaction of trimethylsilyl propargyl bromide are 71 to 84%.
核磁共振谱通常是根据已知的溶剂残留质子峰进行校正,而不是添加四甲基硅烷。
NMR spectra are often calibrated against the known solvent residual proton peak instead of added tetramethylsilane.
硅酮可方便地由聚氧硅烷组成。
接触硅烷会导致眼睛的刺激。
本文介绍了硅烷低压外延的实验装置。
In this paper, an experimental apparatus for the low pressure epitaxy of silane is described.
水与硅烷反应形成硅醇基因。
不允许在含有硅烷的系统上使用衬垫阀。
The use of packed valves on systems containing silane should not be permitted.
在某些情况下,泄露的硅烷不会立刻点燃。
与硅烷不同,钛酸酯不要求存在水才能反应。
Unlike silanes they do not require the presence of water to react.
硅烷偶联剂几乎对每一种类型的有机聚合物都是合适的。
Silane coupling agents are compatible with almost every type of organic polymer.
研究了硅烷偶联剂对沥青与石料及水泥砂浆界面的作用。
The interfacial effects of silane coupling between asphalt with granite and cement mortar were studied in this paper.
这个过程包括以二氧化钛反应润滑脂或硅烷、硅酸几分钟。
The process involves taking titanium dioxide and treating it with silica, silicone grease or silicic acid for a few minutes.
同样,在使用过程中的快堆设计,碳和氧硅烷的方法是没有介绍。
Similarly, using silane in the way the FBR process was designed, carbon and oxygen are not introduced.
与硅烷相比,钛酸酯没有什么了不得的加工问题或者价格障碍。
Compared to silanes there are no unusual handling issues or price barriers.
聚硅烷橡胶因性能随温度变化小,故在高温和低温的场合都能用。
Silicone rubbers are used for both high and low temperature applications, since their properties change little with temperature.
为了突出钛酸酯的效用,我们将强调使用硅烷无法得到的一些结果。
The effectiveness of titanates we will focus on some results that would be impossible to obtain with silanes .
依照界面科学原理,叙述硅烷系防水涂料在水泥混凝土表面的作用。
Based on interface science principle, effect of silanes waterproof coatings on cement concrete surface was revealed.
叙述了聚硅烷的特点,聚硅烷的导电机理以及提高聚硅烷导电性能的主要途径。
The characteristics and conductive mechanism of polysilane, the ways to improve the conductive performance of polysilane were discussed.
毒性:硅烷的主要危险来自它接触空气可以自发燃烧的能力和它的毒物学的性质。
Toxicity: The major hazards of silane stem from its ability to spontaneously ignite on contact with air and its toxicological properties.
毒性:硅烷的主要危险来自它接触空气可以自发燃烧的能力和它的毒物学的性质。
Toxicity: The major hazards of silane stem from its ability to spontaneously ignite on contact with air and its toxicological properties.
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