本发明涉及一种智能型高分子水凝胶生产方法。
The invention relates to a method of producing an intelligent type macromolecule water gel.
目的探讨以复合材料学方法所得高分子水凝胶的分类。
ObjectiveTo approach the taxonomy of polymer hydrogels prepared with composite material science methods.
高分子水凝胶是一种具有三维网络结构的典型软固体材料。
Polymeric hydrogel is typical soft-solid materials with 3d network structures.
本论文主要对基于高分子水凝胶微球为模板制备有机—无机复合材料进行了研究。
This dissertation mainly studies on the preparation of polymeric-inorganic composite microspheres of core-shell structure based on template method of polymeric hydrogel microspheres.
结果:在亲水的高分子凝胶基质中,离子形式的双氯芬酸钠扩散速率大于分子形成的扩散速率。
RESULTS:The diffusive rate of diclofenac sodium from the two kinds of hydrophilic polymer gel was higher than that of diclofenac acid.
由此可见,合成的NVP -HEMA高分子共聚物水凝胶材料具有良好的生物相容性,符合软性角膜接触镜材料的要求。
The results show that the NVP-HEMA copolymer hydrogels have good biocompatibility, according with the requirements of the soft contact lens material.
水凝胶是一种具有三维网络结构的新型功能高分子材料,以其含水量高、溶胀快、柔软、具有橡胶般的粘稠性和良好的生物相容性等优点得到广泛应用及研究。
Hydrogel was moderate crosslinded, branched polymers, widely studied and applied because of the ability to absorb large quantities of water, swell quickly, soft, elastine and biologic consistence.
纳米水凝胶是一种水溶胀性的,具有交联结构的亲水纳米高分子 材料, 因其含水量高、溶胀快、生物兼容性好等优点得到广泛研究及应用。
Nanogels are sub-micron size, water-swellable cross- linked structures of hydrophilic polymers. They have the ability of absorbing large quantities of water, swelling quickly and biologic consistence.
纳米水凝胶是一种水溶胀性的,具有交联结构的亲水纳米高分子 材料, 因其含水量高、溶胀快、生物兼容性好等优点得到广泛研究及应用。
Nanogels are sub-micron size, water-swellable cross- linked structures of hydrophilic polymers. They have the ability of absorbing large quantities of water, swelling quickly and biologic consistence.
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