介绍了环氧丙烯酸酯类U v固化光纤涂料。
In this paper, an epoxy acrylates UV curable coating for optical fiber was reported.
着重研究了气相二氧化硅填料的加入对光纤涂料性能的影响。
The effects of gas silicon dioxide on the properties of UV-curable optical fiber were studied.
采用双酚A环氧丙烯酸酯(EA)和聚氨酯丙烯酸酯(PUA)共混,加入活性稀释剂、光引发剂、颜料等制备了紫外光固化光纤涂料。
The UV curable coating of fiber ribbon was prepared by blending bisphenol A epoxy acrylate(EA) and polyurethane acrylate(PUA)and adding reactive diluent, photoinitiator and pigment.
考察了环氧豆油丙烯酸酯齐聚物的合成、改性及在紫外光固化光纤内层涂料中的应用。
The synthesis, modification of the epoxy soybean oil acrylate oligomer and their application to the UV-curing optical fiber inner coatings have been investigated.
试验比较了几种涂料对光纤的保护作用。
Several kinds of coating materials were studied on their protective effects on the fibres.
紫外固化光纤缓冲层涂料性能,主要考虑的是缓冲层涂料的光固化速度、缓冲层的强度、缓冲层的剥离力及缓冲层的附加损耗等性能。
As for the performance of UVcured optical fiber buffer coating, the main concerns are the curing speed, strength, stripping force and additional loss of the buffer layer.
使用该涂料一次预涂复的光纤具有优良的高低温性能。
The coated optical fiber has high and low temperature resistance because of the flexibility.
高速拉丝过程中,模具中涂料的压力梯度决定了对中作用力和光纤涂层同心度的大小。
In high speed drawing process, the pressure gradient of coating in die determines the magnitude of centering force and the concentricity of coating layers.
高速拉丝过程中,模具中涂料的压力梯度决定了对中作用力和光纤涂层同心度的大小。
In high speed drawing process, the pressure gradient of coating in die determines the magnitude of centering force and the concentricity of coating layers.
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