Texture of a new liquid crystalline polymer—butyryl chitosan was studied using polarized microscopy.
用偏光显微镜研究了一种新的液晶高分子—丁酸壳聚糖液晶的织构。
About the research development of liquid crystalline polymer and it's in? Situ composite material was summarized.
用热致液晶聚合物微纤增强热塑性树脂制备原位复合材料是增强热塑性树脂的一个新途径。
Liquid crystalline polymer has the highest strength and modulus. Nowadays it is well known as super engineering plastics.
液晶高分子材料具有相当高的强度和模量,被誉为当代超级工程塑料。
Liquid crystalline ionomer (LCI) is a new kind of polymer which has the structure characteristics of both liquid crystalline polymers and ionomers.
液晶离聚物是一种兼具液晶高分子和离聚物结构特征的新型聚合物。
Preparing in situ composite by blending thermoplastic polymer (TP) with thermotropic liquid crystalline polymer (TLCP) is one of important approach to reinforce polymer.
用热致液晶聚合物(TLCP)与热塑性塑料(TP)共混制备原位复合材料是增强高分子的重要途径。
Second, on the basis of the characterization of photoinduced anisotropy, polarization holographic recordings are accomplished in the azo-containing liquid crystalline polymer.
其次,在光致各向异性研究的基础上,完成了两种偶氮液晶聚合物薄膜中的偏振全息记录。
At last, we put emphasis on the Spatial Light Modulator (SLM). Based on this optical component, we record polarization holography images storage in an azo ionic liquid crystalline polymer.
本文最后对空间光调制器进行了介绍和讨论,利用此光学元件,对偶氮液晶材料进行了偏振全息图像存储。
Based on the liquid crystalline polymer theory, a kind of polyacrylate was synthesized by choosing biphenyl group as rigid nucleus of mesogenic unit and hexylidene as flexible spacing group.
依据液晶分子结构理论,选择联苯基作为介晶基元,六亚甲基为柔性间隔基,合成了一种丙烯酸酯侧链型液晶高分子。
Liquid crystalline PLLA polymer shows the characteristics of both thermodynamic stability of polymer and orientational ordering of liquid crystal.
液晶高分子同时具有聚合物的稳定性和液晶的取向有序性。
The results show that the texture of monomer and polymer are the type of nematic liquid crystalline, and the polymer has good liquid crystal performance .
结果表明,单体和聚合物均呈现向列型液晶织态结构,聚合物在较宽的温度范围内有很好的液晶性。
Photoorientation of azobenzene-functionalized liquid crystalline hyperbranced polymer is investigated by using nanosecond pulse laser.
研究了超枝化偶氮液晶高分子在脉冲激光辐射下的各向异性取向特性。
A novel polymer network stabilized cholesteric liquid crystal display was fabricated by doping a low concentration of liquid crystalline monomer and polymerizing under UV light at planar state.
在胆甾液晶材料中掺入少量的聚丙烯类单体材料制作了一种新型的聚合物网络胆的液晶显示器。
A novel polymer network stabilized cholesteric liquid crystal display was fabricated by doping a low concentration of liquid crystalline monomer and polymerizing under UV light at planar state.
在胆甾液晶材料中掺入少量的聚丙烯类单体材料制作了一种新型的聚合物网络胆的液晶显示器。
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