Synthesis of GMA/EDMA Uniform Pores Monolith Using Melt blown Polypropylene Nanofibers Templates

Journal of Applied Membrane Science & Technology Pub Date : 2019-09-15 DOI:10.11113/AMST.V23N3.165

Z. Kamin, N. Ramon, M. Misson, C. C. Ken, R. Sarbatly, D. Krishnaiah, A. Bono

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Abstract

Glycidyl methacrylate / ethyl dimethacrylate (GMA/ EDMA) monoliths consisting of pores induced by polypropylene nanofibers (PPNF) were developed. For creating these pores, templating technique was used where the PPNF act as a template. The PPNF were fabricated using a melt blowing technique at various process operations of polymer flowrate, air pressure and die-to-collector distance at ranges of 15 to 30 Hz, 0.15 to 0.3 MPa and 0.20 to 0.6 m respectively designed using a response surface methodology (RSM). Subsequently, a monolith solution was synthesis using the polymerization of GMA and EDMA, with azobisisobutyronitrile (AIBN) as initiator and cyclohexanol as porogen. The PPNF and GMA/ EDMA monoliths were characterized using SEM and melting point instrument. The findings show, PPNF fiber diameter and melting points were in the range of 5 to 14 x 103 nm and 120 to 130 °C respectively. RSM analysis suggests that air pressure and die-to-collector distance could be an important factor for PPNF final diameter. Morphology studies demonstrate that GMA/ EDMA monolith have been successfully acquired mesoporous structure and creating uniform pores by PPNF template produce at 22.5 Hz, 0.22 MPa and 0.40 m. As a conclusion, the PPNF can be proposed as a template to prepare monolith having uniform pores.

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熔融吹塑聚丙烯纳米纤维模板合成GMA/EDMA均匀孔整体材料

制备了由聚丙烯纳米纤维(PPNF)诱导孔隙组成的甲基丙烯酸缩水甘油酯/二甲基丙烯酸乙酯(GMA/ EDMA)单体材料。为了创建这些孔，使用了模板技术，其中PPNF作为模板。利用响应面法(RSM)设计不同的工艺操作，分别在15 ~ 30 Hz、0.15 ~ 0.3 MPa和0.20 ~ 0.6 m范围内，采用熔体吹制技术制备PPNF。随后，以偶氮二异丁腈(AIBN)为引发剂，环己醇为破孔剂，采用GMA和EDMA聚合制备了单体溶液。采用SEM和熔点仪对PPNF和GMA/ EDMA单体进行了表征。结果表明，PPNF纤维直径范围为5 ~ 14 × 103 nm，熔点范围为120 ~ 130℃;RSM分析表明，空气压力和模具到收集器的距离可能是影响PPNF最终直径的重要因素。形态学研究表明，在22.5 Hz、0.22 MPa、0.40 m的条件下，PPNF模板制备的GMA/ EDMA单体材料成功获得了介孔结构，并形成了均匀的孔隙。结果表明，PPNF可作为模板制备具有均匀孔隙的整体块体。

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Journal of Applied Membrane Science & Technology

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