chitosan fiber

Experiments show that chitosan fiber has good degradability .

结果说明壳聚糖纤维具有良好的生物降解性能。

Production and application of chitosan fiber medical dressings

壳聚糖纤维医用敷料的生产及应用

Application Status and Development Prospects of Chitosan Fiber in China

我国甲壳胺纤维应用现状及发展前景

Study on Antibacterial Test Method and Influencing Factors of Chitosan Fiber

甲壳胺纤维抗菌试验性方法及影响因素的初步研究

Study of the quantitative chemical analysis on the chitosan fiber in textiles

纺织品中甲壳胺纤维定量化学分析方法研究

Bond stability and fixation mechanism between reactive dyes and chitosan fiber

活性染料与甲壳胺纤维的成键稳定性研究

The Structure and Property of Chitosan Fiber

甲壳胺纤维的结构与性能

Study on Preparation and rheologic properties of chitosan fiber wet spinning solution

甲壳胺纤维纺丝原液的制备及其流变性能的研究

Study on Dyeing Performance of Chitosan Fiber

甲壳胺纤维染色性能研究

The normal methods for preparing chitosan fiber and the properties of chitosan fiber are summarized .

总结了壳聚糖纤维制备的一般方法和性能。

Research on degradation and biocompatibility in vitro and in vivo of a woven chitosan fiber

壳聚糖编织纤维体内外降解及生物相容性研究

Studies on Repair of Bone Defect by Calcium Phosphate Cement Reinforced by Chitosan Fiber and Gelatin

壳聚糖纤维及明胶增强的磷酸钙骨水泥治疗骨缺损的实验研究

The chitosan fiber has several excellent properties , such as antibacterial activity , air permeability and so on .

壳聚糖纤维具有抗菌性和透气性等优良性能。

Researches on the relation between the blending ratio of chitosan fiber with other fibers and its antibacterial properties

甲壳胺纤维混纺比与抗菌性能的关系

Physiochemical and biocompatible properties of a calcium phosphate cement combined with Chitosan fiber and gelatin

壳聚糖纤维及明胶联合增强的磷配钙骨水泥理化性能及生物相容性研究

Chitosan fiber could be produced by dry-wet spinning process with 4.0 % acetic acid aqueous as solvent .

以4.0%醋酸水溶液为溶剂，采用干湿法纺丝工艺制备甲壳胺纤维。

Therefore , the modification to improve the mechanical properties of chitosan fiber has been as an important research direction in this area in recent years .

因此，对壳聚糖纤维进行改性以改善其机械性能已成为近年来这一领域的重要研究方向。

Amidoxime Chelate Fiber Forming of chitosan fiber

胺肟型螯合纤维壳聚糖纤维的成型

Chitosan fiber is prepared by solution spinning and dried at different temperatures and ratios of stretch and shrink .

本文用溶液湿法纺丝制得甲壳胺湿纤维，分别在不同温度以及不同伸缩比下干燥定型。

Synthesis and Inclusion Ciprofloxacin of β - Cyclodextrin-Grafted Chitosan Fiber

β-环糊精接枝壳聚糖功能纤维的合成与包合药物

The paper presented the characteristics and applications of novel chemical fiber , composite fiber , chitin fiber and chitosan fiber , environment friendly fiber and advanced PTT fiber .

文章分别就用于非织造产品开发的新型化纤原料、复合纤维、甲壳素与甲壳胺纤维、环保型纤维、新型聚酯PTT纤维的特性与应用作了介绍。

Tensile strength of chitosan fiber reaches 1.5 cN / dtex . The chitosan fibers show Tg ≈ 288 ℃, WRV ≈ 130 % .

甲壳胺纤维的抗张强度可达1.5cN/dtex，热分解温度为288℃，保水值高达130%。

Immersing into the soil slurry , the chitosan fiber reduced 55 . 9 % in weight and 57 . 6 % in the absolute strength after 6 weeks .

浸泡在活性污泥泥浆中的纤维6周后质量减少55.9%，绝对强力下降57.6%。

Chitosan fiber can be used to prepare medical dressing , human body absorbable suture , support material for tissue engineering etc. , but its lower tenacity greatly hinders its application area .

壳聚糖纤维可以用于制备医用敷料、人体可吸收缝合线、组织工程载体材料等，但目前壳聚糖纤维的强度较低，严重制约了其应用的领域。

Till now , the preparation of chitosan fiber is still using volatile and difficulty recover solvent , which will cause corrosion in equipments , waste recourses and do harm to environment .

目前壳聚糖纤维的制备仍然使用易挥发、不可回收利用的溶剂，有腐蚀设备，浪费资源，污染环境等缺点。

The three-dimensional scaffolds that could be used to association culture with Schwann cells , including polyester fiber , PGA , PLA , PLGA , ZQ membrane , and chitosan fiber etc.

可与许旺细胞进行联合培养的支架材料包括聚酯纤维、聚羟基乙酸、聚乳酸、聚羟基乙酸和聚乳酸共聚物、ZQ膜、壳聚糖等等。

This paper resolves the problems existed in traditional wet spinning and dry wet spinning , such as complicated technical process , high production cost and waste time and energy . This spinning technology improves the spinnability of chitosan fiber .

解决了传统的湿法纺丝和干湿法纺丝生产壳聚糖纤维时，工艺过程复杂，生产成本高，费时费力的问题，而且提高了壳聚糖纤维的可纺性。

Results : Schwann cells cultured on the chitosan fiber were spindle or oval-shaped , proliferated and migrated along fiber and formed chain structure . The end of Schwann cell processes were flat and expanded , adhered on the fiber as claw-shaped pseudopodium .

结果：壳聚糖纤维支架上的Schwann细胞为橄榄形或椭圆形，细胞在纤维上分裂、迁移，形成链状结构，细胞突起的末端呈扁平状膨大，伸出爪形伪足贴附于纤维。

Application of Chitosan in Fiber Products

壳聚糖在纤维制品中的应用

Preparation and structures of chitosan hollow fiber membranes

壳聚糖中空纤维膜的制备及其结构研究