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Mechanical properties of electrospun fibers with different degrees of alignment
Paper ID : 1602-UFGNSM-FULL (R1)
Authors:
Delaram Tolieh1, Mohammad Karimi *2, Behrouz Javanmardi3
1second floor, No. 15,39 alley, Satarkhan street, Tehran, Iran
2Amirkabir University of technology, Tehran
3Beh Afarin, Karim Khan Zand, Tehran
Abstract:
There are many methods for fabricating nanofibers and electrospinning is one of the appropriate and easy method for producing nanofibers. Electrospinning process produce non-woven web that has special properties like large specific surface and small pore size. These properties cause that they have many applications in different fields including protective textiles, medical scaffolding, medical engineering and separating materials like filtration and membrane process. However low mechanical properties of this nano structure web limited them for some applications. There are various way to increase mechanical strength. In this study collector drum used with controllable speed to evaluate the effect of fiber alignment on the nanofiber web strength. Various samples were manufactured by changing rotational speed of collector. Fiber alignment and their strength were measured. In this study polyvinyl acetate (PVAc) and polyacrylonitrile (PAN) used at concentration of 12 wt.% that have different glass transition temperature. The results of the tensile test and scanning electron microscope indicate that the alignment and tensile strength were increased with increasing rotational speed of the collector. In polyacrylonitrile samples that have higher glass transition temperature, the increasing of tensile strength is more than the polyvinyl acetate. By increasing collector rotational speed from 0 to 3200 rpm, the strength of web has increased up to 172% that shows fibers are aligned furthermore polymer chains are oriented.
Keywords:
Electrospinning, alignment, Mechanical properties, polyacrylonitrile, polyvinyl acetate
Status : Paper Accepted (Poster Presentation)