Kitosan katk�l� poliamid-6/sel�loz asetat (PA6/CA) nanofiber kompozit membran �retimi ve membran ge�irgenliklerinin ara�t�r�lmas�

G�l, Abdullah; Tiyek, �smail

Cilt : 31 Say� : 1 Y�l : 2025

31/1Son Say� Erken Bask� Ar�iv Pop�ler Makaleler Makale G�nderimi

Pamukkale �niversitesi M�hendislik Bilimleri Dergisi

Kitosan katk�l� poliamid-6/sel�loz asetat (PA6/CA) nanofiber kompozit membran �retimi ve membran ge�irgenliklerinin ara�t�r�lmas� [Pamukkale Univ Muh Bilim Derg]

Pamukkale Univ Muh Bilim Derg. Bask�daki Makaleler: PAJES-68338 | DOI: 10.5505/pajes.2025.68338

Kitosan katk�l� poliamid-6/sel�loz asetat (PA6/CA) nanofiber kompozit membran �retimi ve membran ge�irgenliklerinin ara�t�r�lmas�

Abdullah G�l¹, �smail Tiyek²
¹Yozgat Bozok �niversitesi, Kenevir Ara�t�rmalar� Enstit�s�, Malzeme ve Enerji Ana Bilim Dal�, Yozgat
²Kahramanmara� S�t�� mam �niversitesi, Tekstil M�hendisli�i Ana Bilim Dal�, Kahramanmara�

PA6 nanolif kompozit membranlar�n y�ksek bas�n� alt�nda zay�f hidrofilik etkileri ve hidrokarbon bazl� hammadde olmalar� nedeniyle �evre ve s�rd�r�lebilirlik politikas� yapt�r�mlar�ndan etkilenecekleri i�in gelecekte uygulama alanlar�n�n s�n�rl� olmas� beklenmektedir. Bu �al��mada, biyo bazl� kitosan katk�l� PA6/CA kompozit nanofiber membran y�zeyleri, elektrospinning y�ntemi kullan�larak haz�rland�. Kompozit membranlar�n hidrofilik ve ge�irgenlik �zelliklerini geli�tirmek amac�yla kitosan katk� oran�na ba�l� olarak farkl� kar��m oranlar�nda nanofiber yap�l� kompozit membran y�zeyleri haz�rland�. Membranlar SEM g�r�nt�leri, g�zenek boyutu, g�zenek oran� ve temas a��s� �l��mleriyle karakterize edildi. Membranlar�n mekanik �zelliklerini �l�mek i�in �ekme ve patlama mukavemeti ve hava ge�irgenlik testleri yap�lm��t�r. �al��ma, haz�rlanan membranlar�n ge�irgenlik ve iyon tutma �zelliklerinin belirlenmesi amac�yla saf ve tuzlu su olmak �zere iki tip su kullan�larak ger�ekle�tirilmi�tir. Sonu�lar, kitosan katk�l� PA6/CA kompozit yap�l� nanofiber membran y�zeylerinin hidrofilikli�in artt�r�lmas�nda �nemli bir rol oynad��n� g�sterdi. Kitosan katk� oran�na ba�l� olarak g�zenek boyutunun azald�� ve buna ba�l� olarak hava ge�irgenli�inin azald�� belirlenmi�tir. �ekme ve patlama mukavemetindeki azalmaya paralel olarak saf su ge�irgenli�inde de azalma oldu�u g�zlenmi�tir. Ancak tuzlu su ile yap�lan �al��mada iyon tutulumunda art�� g�zlenmi�tir. T�m bu sonu�lar kitosan katk�l� PA6/CA nanofiber kompozit membranlar�n hidrofilik, mekanik ve ge�irgenlik de�erleriyle mikrofiltrasyon uygulamalar� i�in olduk�a umut verici olabilece�ini g�stermektedir

Anahtar Kelimeler: Elektrospinning, Nanolif, Kitosan, Sel�loz Asetat, Poliamid 6, Membran

Production of nanofiber composite membrane from chitosan added polyamide-6/cellulose acetate (PA6/CA) and investigation of membrane permeability

Abdullah G�l¹, �smail Tiyek²
¹Yozgat Bozok University, Hemp Research Institute, Materials and Energy Department,Yozgat, T�rkiye
²Department Of Textile Engineering, Kahramanmaras Sut�u Imam University, Kahramanmaras, T�rkiye

PA6 nanofiber composite membranes are expected to be limited in their application area in the future, as they will be affected by environmental and sustainability policy sanctions due to their weak hydrophilic effects under high pressure and being hydrocarbon-based raw material. In this study, bio-based chitosan-doped PA6/CA composite nanofiber membrane surfaces were prepared using the electrospinning method. Nanofiber-structured composite membrane surfaces were prepared at different mixing ratios to improve the hydrophilic and permeability properties of the composite membranes, depending on the chitosan doping ratio. Membranes were characterized by SEM images, pore size, pore ratio, and contact angle measurements. Tensile and bursting strength and air permeability tests were performed to measure the mechanical properties of the membranes. The study was carried out using two types of water, pure and salt water, to determine the permeability and ion retention properties of the prepared membranes. The results showed that chitosan-doped PA6/CA composite structured nanofiber membrane surfaces played an important role in increasing the hydrophilicity. It was determined that depending on the chitosan additive ratio, the pore size decreased and accordingly the air permeability decreased. It was observed that there was a decrease in pure water permeability in parallel with the reduction in tensile and bursting strength. However, an increase in ion retention was observed in the study performed with salt water. All these results show that chitosan-doped PA6/CA nanofiber composite membranes can be very promising for microfiltration applications with their hydrophilic, mechanical, and permeability values.

Keywords: Elektrospinning, Nanofiber, Chitosan, Cellulose acetate, Polyamide 6, Membranes.

Sorumlu Yazar: Abdullah G�l, T�rkiye
Makale Dili: �ngilizce

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