1) blend support membrane
共混基膜
1.
The PVDF/PEU blend support membranes were prepared by phase-inversion method, and the grafted membranes with pH-sensitive effect were prepared by UV photografting polyacrylic acid onto the blend support membranes with benzophenone(BP) as initiator.
采用相转化法制备PVDF/PEU共混基膜。
2) blended membrane
共混膜
1.
The blended membrane is prepared with Konjac glucomanna (KGM) and Carrageenan as materials.
结果表明,魔芋葡甘聚糖与卡拉胶用量比为6:4时,共混膜的能达到较好的效果。
2.
A series of blended membranes with various fullerene ethanolamine derivative contents were prepared using the natural polymer chitosan as membrane material by casting method.
通过溶液共混及流涎成膜法制备了一系列不同C60乙醇胺含量的壳聚糖共混膜,以及含Cu(Ⅱ)的C60乙醇胺/壳聚糖共混膜。
3.
The membranes were prepared by blending polyaniline with poly(vinylidene fluoride), and the gas-separation characteristics of pure PVDF membrane and blended membranes were investigated.
采用PANI与PVDF共混制膜,并对共混膜和PVDF膜的气体分离性能进行对比研究。
3) blending membrane
共混膜
1.
Study of PES-PAN blending membrane;
聚醚砜-聚丙烯腈共混膜的研究
2.
Preparation of PES/CA blending membrane and its application in membrane bioreactor
聚醚砜/醋酸纤维素共混膜的制备及其在膜生物反应器中的应用研究
3.
The blending membranes of perfluorinated sulfonic resin with polyvinylidene fluoride(PVDF) were prepared by the method of solution casting.
为了降低质子交换膜的成本,选用聚偏氟乙烯和全氟磺酸树脂为原料,采用溶液-浇铸法制备了全氟磺酸树脂/聚偏氟乙烯的共混膜。
4) blend films
共混膜
1.
PP-g-MAH/down powder blend films with different content of powder were obtained after down powder were pretreated by different kinds of plasticizers,and the influence of down powder content,the type of PP,and the kind of plasticizers on the mechanical properties of blend films were studied.
采用不同增塑剂对羽绒粉体处理,制备了不同羽绒含量的马来酸酐接枝聚丙烯(PP-g-MAH)/羽绒粉体共混膜,分析了粉体含量、PP种类及不同增塑剂对共混膜力学性能的影响。
2.
The cassava starch-chitosan blend films were prepared by solution method.
以溶液共混法制备了木薯淀粉/壳聚糖共混膜,测试了其力学性能、水蒸气透过率、阻氧性及抗菌性能,同时通过红外光谱、X-射线、扫描电镜表征了其结构。
3.
PANI and Polystyrene were cosolved in xylene and casted into blend films.
将聚苯胺、聚苯乙烯共溶于二甲苯后制成共混膜,用广角X射线衍射、红外光谱、偏光显微镜分析了共混膜的相形态。
5) blend film
共混膜
1.
Properties of blend films prepared by water-insoluble silk fibroin powder and medical polyurethane;
非水溶性丝素粉体与聚氨酯共混膜的性能
2.
The blend films was successfully prepared by coagulating a mixture of sodium alginate and carboxylmethyl konjac glucomannan in aqueous solution with 5% CaCl_2,and then by treating with 1% HCl aqueous solution.
再利用溶液共混法制备海藻酸钠-羧甲基葡甘聚糖共混膜,通过红外光谱、X-射线衍射、原子吸收光谱和扫描电镜对共混膜的结构进行了表征;并测定了不同配比共混膜的拉伸强度、断裂伸长率,吸水率和水蒸汽透过率,同时考察了NaCl浓度对共混膜吸水率的影响。
3.
Collagen-chitosan-polyvinyl pyrrolidone(PVP)blend films were prepared successfully by solution method,and characterized by FT-IR,X-ray diffraction and optical transmittance.
利用溶液共混法成功制备了新型生物膜材料——胶原蛋白—壳聚糖—聚乙烯吡咯烷酮共混膜,通过红外光谱、X-射线衍射和透光率测试表征了共混膜的结构,同时测定了共混膜的力学性能,考察了溶液pH值对共混膜吸水率的影响。
6) blend film
共混薄膜
1.
The preparation of polysebacic anhydride (PSA)/polylactide (PLA) blend film that is used as biodegradable material in drug delivery is studied.
研究了一种用于药物缓释的生物可降解材料聚癸二酸酐 /聚乳酸共混薄膜的制备 ,通过选择不同的溶剂 ,以及改变聚癸二酸酐和聚乳酸的比例 ,采用溶剂蒸发法得到了聚癸二酸酐 /聚乳酸共混薄膜 ,同时对聚癸二酸酐 /聚乳酸共混薄膜在生理盐水中的降解性能进行了研究。
2.
Atom force microscopy was used to observe the annealing temperature influence to the crystal morphology of PVDF/P (VDF-TrFE) blend film.
共混薄膜中发生了两种类型的相分离,P(VDF-TrFE)的结晶可以使整个混合薄膜的宏观相容性得到提高,使两种成份的分层现象消失。
补充资料:丁基橡胶/聚乙烯共混物
分子式:
CAS号:
性质: 用聚乙烯对丁基橡胶改性得到的新型高分子材料。IIR气密性优良,用PE对其改性,随PE用量改变,材料硬度和定伸应力有不同程度的提高,加工性能改善,并可提高IIR压出制品的尺寸稳定性、热变形温度、抗撕裂性和耐老化性。此共混物主要是由HDPE与IIR共混,通过酚醛树脂交联制得的。该材料可用作内胎、胎侧胶、工业包装衬里、胶管等。此外,用丁基橡胶对聚乙烯改性共混物,可作为软性材料使用,例如可用作泡沫塑料的原料。与LDPE共混主要提高其耐撕裂性(可提高160倍以上),并改善抗冲击和电绝缘性能,而其他力学性能变化不大;与HDPE共混可以提高其耐开裂性,但拉伸屈服强度有较大的下降,断裂伸长率增加。
CAS号:
性质: 用聚乙烯对丁基橡胶改性得到的新型高分子材料。IIR气密性优良,用PE对其改性,随PE用量改变,材料硬度和定伸应力有不同程度的提高,加工性能改善,并可提高IIR压出制品的尺寸稳定性、热变形温度、抗撕裂性和耐老化性。此共混物主要是由HDPE与IIR共混,通过酚醛树脂交联制得的。该材料可用作内胎、胎侧胶、工业包装衬里、胶管等。此外,用丁基橡胶对聚乙烯改性共混物,可作为软性材料使用,例如可用作泡沫塑料的原料。与LDPE共混主要提高其耐撕裂性(可提高160倍以上),并改善抗冲击和电绝缘性能,而其他力学性能变化不大;与HDPE共混可以提高其耐开裂性,但拉伸屈服强度有较大的下降,断裂伸长率增加。
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