1) microporous membrane
微孔滤膜
1.
Study on PVDF hollow fiber microporous membrane;
聚偏氟乙烯(PVDF)中空纤维微孔滤膜的研究
2.
Experimental method of the streaming potential of charge modified microporous membrane;
荷电微孔滤膜流动电位测量方法的研究
3.
A positively charge modified microporous membrane which was prepared with natural polysaccharide as charge modifying agent by immersion process was studied for its adsorption capacity.
本文研究了以天然多糖为荷电剂,用浸涂法制备的荷电微孔滤膜的吸附性能,探讨了制膜工艺及操作条件,如溶液组分、温度及pH值等对吸附性能的影响,为荷电微孔滤膜的使用提供依据。
2) microporous filter membrane
微孔滤膜
1.
Studies on the regeneration of microporous filter membrane using oxidant.;
微孔滤膜氧化法再生的研究
2.
With the crossing ratio of partly hydrolyzed HPAM to LPS being constant,the effects of HPAM relative molecular weight and electrolyte on LPS plugging capacity were researched by microporous filter membrane filtering.
采用微孔滤膜过滤法研究了在部分水解聚丙烯酰胺(HPAM)与交联剂柠檬酸铝(A lC it)的交联比确定的情况下,HPAM的相对分子量以及电解质对交联聚合物溶液(LPS)封堵性能的影响。
3.
In this work,the Germany Sartorius GmbH microporous filter membrane made from cellulose acetate with 0.
65μm孔径的醋酸纤维素微孔滤膜为试验材料,用热水浸泡,酸、碱和表面活性剂对被堵的微孔滤膜进行再生处理,并测试其纯水通量和泡点压力值,同时借助扫描电镜对微孔滤膜再生前后形态结构的观察,结果表明:在50℃条件下,采用0。
3) millipore filter membrane
微孔滤膜
1.
In order to know the efficacy of dibromohydantoin in killing bacteria in water body and its influencing factors,millipore filter membrane suction method was used to carry out laboratory and field experimental study.
为了解二溴海因对水体中细菌的杀灭效果及其影响因素,采用微孔滤膜抽滤法进行了实验室和现场试验研究。
5) Micropore filter membrane
微孔滤膜
1.
Collecting of trichloroaniline in the air by micropore filter membrane and determination by gas chromatography;
微孔滤膜采集空气中三氯苯胺的气相色谱法测定
6) Micropore Membrane Filter
微孔滤膜
1.
Determination of Silver in Atmospheric Particulates by FAAS with Micropore Membrane Filter for Sampling;
微孔滤膜采样-FAAS法测定大气颗粒物中的银
补充资料:聚四氟乙烯微滤膜
分子式:
CAS号:
性质: 聚四氟乙烯[CF2-CF2]n,所制成的具有筛分功能的膜。聚四氟乙烯是线性聚合物,因其高分子链高的内聚能很低,没有适合的溶剂来制备铸膜液,只能烧结、切削、拉伸或挤压成型制成薄膜。使晶间区形成孔隙,成为微滤膜。若与聚乙烯网结合,可制成高强度微滤膜。其化学稳定性好,耐强酸、强碱、强氧化剂和有机溶剂,使用温度高。但膜为强憎水性,不吸水,抗蠕变性差,弯曲强度低,使用时应注意。
CAS号:
性质: 聚四氟乙烯[CF2-CF2]n,所制成的具有筛分功能的膜。聚四氟乙烯是线性聚合物,因其高分子链高的内聚能很低,没有适合的溶剂来制备铸膜液,只能烧结、切削、拉伸或挤压成型制成薄膜。使晶间区形成孔隙,成为微滤膜。若与聚乙烯网结合,可制成高强度微滤膜。其化学稳定性好,耐强酸、强碱、强氧化剂和有机溶剂,使用温度高。但膜为强憎水性,不吸水,抗蠕变性差,弯曲强度低,使用时应注意。
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