1) regenerated cellulose
再生纤维素
1.
Preparation and photocatalytic activity of nano-TiO_2/regenerated cellulose composite films;
纳米TiO_2/再生纤维素复合薄膜的制备及光催化性能
2.
Preparation and anti-fouling characteristics of regenerated cellulose ultrafiltration membranes;
再生纤维素超滤膜的研制及其耐污染性研究
3.
Studies on non continuous & abnormal behavior in dynamic viscoelasticities of cellulosic fibres and films (Ⅰ) The investigation of dynamic viscoelastic properties of regenerated cellulose at different temperature and humidity;
纤维素纤维与薄膜动态粘弹性及其不连续非常态行为的研究(Ⅰ)不同温度和湿度下再生纤维素纤维的动态粘弹行为考察
2) regenerated cellulose fiber
再生纤维素纤维
1.
Properties Comparison and Identification of New-type Regenerated Cellulose Fibers;
新型再生纤维素纤维的性能对比与鉴别
2.
The article introduces the worldwide development of regenerated cellulose fibers and regeneration technologies, and anticipates the future development of regenerated cellulose fibers.
再生纤维素纤维由于在原料、性能等方面的优势,发展前景十分可观。
3.
The properties of several new regenerated cellulose fibers which are commonly used currently are introduced.
介绍了目前开发应用较广泛的几种新型再生纤维素纤维的性能,总结了在纺织生产中使用这些纤维应注意的要点及其织物应用情况。
3) regenerated cellulose fibre
再生纤维素纤维
1.
Performance and style of green regenerated cellulose fibres;
再生纤维素纤维的性能及产品风格
4) regenerated cellulose substrate
再生纤维素基质
1.
It is discovered that the ASO-702 film is homogenous and hydrophobic on the regenerated cellulose substrate.
结果表明,在再生纤维素基质表面,氨基硅 ASO-702能形成均一相疏水膜,该膜能有效降低再生纤维基质表面的粗糙度。
5) regenerated cellulose film
再生纤维素膜
1.
The biodegradability of regenerated cellulose films coated with polyurethane/chitosan interpenetrating polymer networks in soil was studied by viscometer, weight loss, scanning electron microscopy (SEM),differential scanning calorimetry (DSC) and infrared (IR).
粘度法和降解失重实验结果表明纤维素的粘均分子量Mη 和降解膜的重量随降解时间的延长而降低 ,再生纤维素膜(RC)和涂层膜 (RCCH)在土壤中 30℃下的降解半衰期分别为 1 9天和 32天。
2.
N,N bis(2 hydroxyethyl) butyl amine,hexyl amine,heptyl amine and octyl amine,were synthesized and used as the plasticizers of regenerated cellulose films.
以N,N-双(2-羟乙基)正丁胺、正己胺、正庚胺和正辛胺作为再生纤维素膜的增塑剂。
3.
Glycerin α monobutyl ether, α monohexyl ether, α monoheptyl ether and α monooctyl ether were synthesized and used as the plasticizers of regenerated cellulose films.
报道甘油单丁醚、单己醚、单庚醚和单辛醚4种化合物的合成,并用作再生纤维素膜的增塑剂。
6) reuse of plant cellulose
植物纤维素再生
补充资料:再生纤维素
分子式:
CAS号:
性质:由纤维素溶液或纤维素衍生物再生的纤维素。透明而有光泽。相对密度1.40~1.55。其塑料的拉伸强度56~140MPa,伸长率15%~45%,耐热性小于150℃。能耐烃类、油类,不耐强酸、强碱。能缓慢燃烧。能溶于黄原酸盐液和热氯化锌液。可为氧化剂分解。由醋酸纤维素或黄原酸纤维素水解制得。用作纤维及其织物和医用渗析膜材料;封装薄膜及胶黏带基材等。
CAS号:
性质:由纤维素溶液或纤维素衍生物再生的纤维素。透明而有光泽。相对密度1.40~1.55。其塑料的拉伸强度56~140MPa,伸长率15%~45%,耐热性小于150℃。能耐烃类、油类,不耐强酸、强碱。能缓慢燃烧。能溶于黄原酸盐液和热氯化锌液。可为氧化剂分解。由醋酸纤维素或黄原酸纤维素水解制得。用作纤维及其织物和医用渗析膜材料;封装薄膜及胶黏带基材等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条