利用辐射接枝改性技术,制备了医用硅橡胶水凝胶膜。
Grafting hydrogels onto silicone rubber membranes were prepared by radiation technique for medical application.
研究结果表明该菌所产凝胶膜的主要成分是细菌纤维素。
The findings indicated that the principal constituent of this strain producing gelatinous membrane is bacterial cellulose.
目的观察硅凝胶膜对增生性瘢痕的影响,探索其作用机制。
Objective To investigate the effects and mechanism of silicone gel sheeting on hypertrophic scar.
目的对交联透明质酸衍生物制备的载药水凝胶膜进行体外药物释放研究。
OBJECTIVE To evaluate drug release properties in vitro of the hydrogel films made of cross-linked hyaluronic acid derivatives.
当PEO分子量增加时,其水凝胶膜的凝胶分数、膨胀度和硬度亦明显增加。
When the PEO molecular weight increased, the gel fraction, the degree of swelling and the hardness of the PEO hydrogel films increased obviously as well.
本实用新型涉及一种医疗材料,具体涉及一种预防和治疗增生性疤痕的硅凝胶膜。
The utility model relates to a medical material, particularly a silica gel film which is used for preventing and treating hyperplastic scars.
目的以交联透明质酸为载体制备环孢素眼植入凝胶膜,观察其体外药物释放特性。
Primary study of characteristics and biocompatibility of the films made of cross-linked hyaluronic acid;
实验结果显示,PEO接枝水凝胶膜的凝胶分数主要依赖于辐射剂量和聚合物浓度。
The experimental results showed that gel fraction of the PEO graft hydrogel films depended mainly on irradiation dose and concentration of the polymers.
然而相对高浓度的掺杂量则会降低膜层的稳定性,破坏溶胶凝胶膜层的腐蚀防护性能。
However, cobaltous acetate of relatively high concentration in sol-gel coatings might undermine both the stability and the corrosion resistance performance of the coatings after immersion.
在LY12铝合金表面制备了防护性溶胶凝胶膜层,并研究了乙酸钴的掺杂对膜层耐蚀性能的影响。
The aim of this study is to investigate the effect of cobaltous acetate doping on the corrosion resistance of sol-gel coatings on aluminium alloy LY12.
本实用新型所称的祛疤硅凝胶膜(又名“疤痕贴”),它包括底皮层(1)、涤纶网层(2)和混合层(3)。
The scar eliminating silica gel film of the utility model (additional name ' a scar contact') comprises a bottom skin layer (1), a terylene net layer (2) and a mixed layer (3).
这表明PEOR- 150溶胀水凝胶膜饱和的交联密度和过低的平衡水含量对其机械强度产生了不利的作用。
The results indicate that the saturant crosslinking density, the lowest degree of swelling of the PEO R-150 water-swollen hydrogel films produce an unfavorable effect on their machinery strength.
它 包括衬底、第一溶胶凝胶层、二氧化硅纳米颗粒层和第二溶胶凝胶层。其中通过 提拉法在衬底上制备第一溶胶凝胶膜层;
The film comprises a substrate, a first sol-gel layer, a silica nanoparticle layer and a second sol-gel layer.
研究应用电子束照射聚氧化乙烯(PEO)所形成的水凝胶膜的制备,并对这些可作为伤口敷料的水凝胶膜的理化特性进行了评价。
Poly(ethylene oxide)(PEO) hydrogel films formed by electron beam (EB) irradiation were prepared as wound dressing. The physiochemical properties of the PEO hydrogel films were evaluated.
结果显示,PEOR-150溶胀水凝胶膜的交联密度随辐射剂量的增加略有增加,但无统计学意义(P>0.05);聚合物质量分数对其交联密度的影响无显著性差异(P>0.05)。
The experimental results show that the irradiation dose and mass fraction ofthe polymer do not produce a significant effect on the gel fraction, of the PEO R-150 water-swollen hydrogel films(P>0.05).
该水凝胶胶膜具有优秀的吸水性能、良好的力学性能,很有希望作为一种新型的医用敷料应用到临床治疗中。
The hydrogel film had excellent water absorption and good mechanical properties, which is very promising to be applied to clinical treatment as a new type of medical dressing.
该水凝胶胶膜具有优秀的吸水性能、良好的力学性能,很有希望作为一种新型的医用敷料应用到临床治疗中。
The hydrogel film had excellent water absorption and good mechanical properties, which is very promising to be applied to clinical treatment as a new type of medical dressing.
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