Scientists are exploring different USES for hydrogels.
科学家正在探索水凝胶更多不同的用途。
Degradation rate (Dr) of chitosan in the hydrogels decreased with increase of SD.
水凝胶中壳聚糖的降解速率随取代度的升高而降低。
Manufacturers use various types of polymers, including silicones, acrylics and hydrogels.
厂商会使用不同类型的聚合物,包括有机硅、丙烯酸树脂和凝胶。
All IPN hydrogels show a fast deswelling rate and reversible swelling-shrinking property.
IPN水凝胶具有快速退溶胀速率及可逆溶胀-收缩性能。
PAA Hydrogels were synthesized, both of the swelling and deswelling kinetics were studied.
合成并研究PAA交联凝胶溶胀动力学及消溶胀动力学。
Objective To explore Hydrogels underlay in preventing bed sore of orthopaedic surgery patient.
目的探讨水凝胶垫在预防骨科手术患者压疮的护理。
The hydrogels are good candidates for drug controlled carriers and tissue engineering scaffolds.
该水凝胶作为可降解生物材料可用于药物控释栽体和组织工程支架。
Supramolecular hydrogels were formed via cooling the aqueous solutions of G2 under ambient condition.
通过在室温下冷却g2的水溶液,形成了超分子水凝胶。
Results show that microcosmic morphology and property of hydrogels depend on their chemical structure.
研究结果表明,聚合物水凝胶的微观形态、性能与凝胶的化学结构有关。
ObjectiveTo approach the taxonomy of polymer hydrogels prepared with composite material science methods.
目的探讨以复合材料学方法所得高分子水凝胶的分类。
The secret is hydrogels, powerfully absorbent polymers that can suck up hundreds of times their weight in water.
秘密在于一种被称作“水凝胶”(hydrogels)的化合物,它是一种强力吸收剂,吸水能力可以达到自身重量的好几百倍。
The secret is hydrogels, powerfully absorbent polymers that can suck up hundreds of times their weight in water.
秘密就在于水凝胶,强烈地吸收超过其重量几百倍的水的聚合物。
Grafting hydrogels onto silicone rubber membranes were prepared by radiation technique for medical application.
利用辐射接枝改性技术,制备了医用硅橡胶水凝胶膜。
Until only recently, though, hydrogels were toxic, and skeptics doubted that they could ever be made safe for consumption.
然而只到最近,因为水凝胶是有毒的,怀疑论者们仍怀疑它们可以产生出安全的消耗品。
Recently many researchers have done a large number of studies on improving the response rate of intelligent hydrogels.
近年来,许多研究工作者围绕提高智能水凝胶的响应速度作出了大量的工作。
Hydrogels are widely used in tissue engineering due to their high water content, biodegradability and excellent biocompatibility.
水凝胶因其具有含水量高,生物可降解,生物相容性良好等特点而广泛应用于组织工程领域。
In addition, the effect of water on the phase transition of polysaccharide and the stimulus response of hydrogels were discussed.
另外,还探讨了水对多糖相转变及凝胶剌激响应性的影响。
It's an 8 - to 12-inch layer of dirt impregnated with hydrogels, along with organic agents that nourish the natural bacteria in the soil.
它是一个由8-12英寸的一个充满水凝胶的泥土层,还有可以培养土壤中自然菌的有机处理剂。
The effects of attachment and growth of kelp spores on the surface of various anionic, cationic and nonionic hydrogels were studied.
研究了海带饱子在阴离子、阳离子、非离子型凝胶表面的附着及生长情况。
The obtained macromers dissolve well in water and can quickly turn into hydrogels through a photopolymerization under UV irradiation.
所得大分子单体的水溶液在光引发剂存在下,能被UV引发光聚合形成水凝胶。
Intelligent hydrogels, which can response to external stimulation, have found potential applications due to their unique responsibility.
能响应外界刺激的智能水凝胶由于其特有的响应性,具有广泛的应用前景。
With the increase of arm numbers of PEG, the temperature of the melting peak of dried gels and the swelling ratio of hydrogels decrease;
随着PEG臂数的增加,干胶的熔融峰顶温度下降,凝胶的溶胀比减小;
Among the recently developed scaffolds for tissue engineering, polymeric hydrogels have proven satisfactory in cartilage and bone repair.
对最新的几种生物材料所进行的研究证实,聚合水凝胶确实在骨及软骨组织工程中能取得令人满意的效果。
It was shown that PEO/PVA blend hydrogels did not induce any acute general toxic effects on mice and an allergic reaction for Iabbit skin.
结果显示,PEO/PVA水凝胶敷料没有引起机体任何急性毒性反应以及皮肤刺激与致敏反应;
It is obtained that, firstly, the PVA hydrogels by extrusion have higher tensile strength than PVA hydrogels by the solution casting method.
结果表明,双螺杆挤出法制备的凝胶拉伸强度高于溶液浇铸法所得样品的拉伸强度。
To introduce the definition, classification, methods of the preparation of hydrogels and the extensive application of them in medical science.
介绍了水凝胶的定义、分类、制备方法及水凝胶在医学领域的广泛运用。
The results show that the NVP-HEMA copolymer hydrogels have good biocompatibility, according with the requirements of the soft contact lens material.
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。
In recent years, much attention is paid to the photosensitive polymer hydrogel, a kind of intelligent polymer hydrogels by scientists all over the world.
光响应高分子凝胶是智能高分子凝胶中的一种,近年来备受世界各国科学家的重视。
In recent years, much attention is paid to the photosensitive polymer hydrogel, a kind of intelligent polymer hydrogels by scientists all over the world.
光响应高分子凝胶是智能高分子凝胶中的一种,近年来备受世界各国科学家的重视。
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