Berk Dalkiliç scite author profile

The aim of this research was to investigate the effect of the microcrystalline cellulose reinforcement on some physical, mechanical, thermal, and morphological properties of the chitosan aerogels. The bio-based chitosan aerogels were produced using chitosan as a matrix and the microcrystalline cellulose as a reinforce material through the freeze-drying method. The aerogel suspensions were prepared in five different ratios to investigate the effect of microcrystalline cellulose content. The density, porosity, thermogravimetric analysis, and compressive resistance tests were conducted according to relevant standards. Morphological properties were investigated using a scanning electron microscope. The introduction of microcrystalline cellulose significantly improved the compressive resistance, thermal properties (T onset and T %50 ) of the chitosan aerogels. The optimum performance properties determined as 0,12 MPa for compressive resistance, 0,27 MPa for compressive modulus, 292,45 °C for T onset and 365 °C for T %50 . According to scanning electron microscope images, aerogels showed microporous structure as expected. As a result, the bio-based chitosan aerogels reinforced with microcrystalline cellulose were successfully manufactured. The mechanical and thermal properties including compressive resistance, compressive modulus, T onset and T %50 of chitosan-microcrystalline cellulose aerogels found promising.

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A Study on Physical, Morphological and Antibacterial Properties of Bio Polymers Reinforced Polyvinyl Acetate Foams

Yıldırım

Özen

Ergün³

et al. 2022

Mat. Res.

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In this study, foaming-agent free novel polyvinyl acetate (PVAc) foams reinforced with bio polymers were manufactured through freeze-drying technique. The physical, morphological and antibacterial properties of foams which were reinforced with different ratio of zinc borate and water-soluble chitosan were investigated according to relevant standards. The PVAc foams showed low densities (0.12 g/cm 3 -0.21 g/cm 3 ) and high porosity rates (87.50% -79.05%). The results showed that although the foams have no antibacterial character against Escherichia Coli, they have antibacterial character against Staphylococcus Aureus bacteria. This study mainly focusses on physical and morphological properties of the foams. However, researchers also performed accelerated weathering tests to determine its usability in different industries. The effects of accelerated weathering on the surface of foams were investigated by measuring surface color. The highest color difference was determined 8.09. This foam can be used as a low-density packaging material and/or medical box with its promising physical and morphological properties with hazardous-chemical free structure.

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Manufacture of wood fiber reinforced polyvinyl acetate rigid foams

Ergün¹,

Özen

Yıldırım

et al. 2020

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In this work, rigid foams designed and manufactured using the freeze drying technique were made from polyvinyl acetate (PVAc), bleached kraft pulp and unbleached kraft pulp. The rigid foams designed as an environmentally-friendly product with no pentane or hydrochlorofluorocarbon included in the manufacturing process. The PVAc based foams were reinforced with different kraft pulp contents. Their performance properties such as compressive and flexural strength, physical and morphological properties were investigated according to relevant standards. The foam densities ranged from 0,017 g/cm 3 with %17,65 coefficient of variation (CV) to 0,137 g/cm 3 with %2,33 CV. The compression resistance was found between 0,001 N/mm 2 with %50,00 CV and 0,03 N/mm 2 with %5,98 CV. The flexural resistance was found between 0,005 N/mm 2 with %20,00 CV and 0,11 N/mm 2 with %6,06 CV. Optimum properties were observed at B-4 (PVAc/ Bleached Kraft pulp 1/0.8). Bleached kraft pulp reinforcement gave better results on performance characteristics of foam materials compared to unbleached kraft pulp reinforcement. Overall test results showed that the PVAc based rigid foams have promising results.

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Usage of Bio-Based Materials in Indoor Members

ALİCİ

Dalkiliç

2021

GRID

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Bu çalışmada iç mekân donatı elemanlarında kullanılabilecek biyo-esaslı malzemelerin kullanım alanlarına alternatif öneriler getirilmesi ve bu malzemelerin bilinirliliğine katkı sağlanması amaçlanmıştır. Bu bağlamda, iç mekân donatı elemanlarında kullanılan biyo-esaslı malzemelerin tasarım ve üretim aşamaları detaylı olarak incelenerek örneklerle açıklanmıştır. Çalışmada tarımsal atıklardan, deniz kaynaklı atıklarından ve canlı organizmalardan üretilen biyo-esaslı malzemelerin, iç mekân donatılarından; mobilya, döşeme ve yüzey kaplama malzemesi olarak kullanımı ele alınmıştır. Çalışma kapsamında literatürde yer alan ilgili makaleler, tezler, kitaplar ve çevrimiçi kaynaklarından faydalanılmıştır. Sonuç olarak tarımsal ve deniz kaynaklı doğal atıklardan ve canlı organizmalardan üretilen biyo-esaslı malzemelerin iç mekân kullanımına uygun olduğu anlaşılmıştır. Biyo-esaslı malzemelerin ulaşılabilir, uygulanabilir ve estetik değere sahip olduğu, üretim sürecinde ise harcanan enerjiyi ve hammadde ihtiyacını azaltacağı görülmüştür. Biyo-esaslı malzemeler üzerine yapılan çalışmaların büyük oranda tasarım araştırmaları kategorisinde yoğunlaştığı, bu nedenle mevcut üretim teknolojilerinde köklü değişiklikler yaratmadığı anlaşılmıştır.

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Abdollahnejad¹,

Acar²,

Aday³

et al. 2020

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Berk Dalkiliç

Effects of microcrystalline cellulose on some performance properties of chitosan aerogels

A Study on Physical, Morphological and Antibacterial Properties of Bio Polymers Reinforced Polyvinyl Acetate Foams

Manufacture of wood fiber reinforced polyvinyl acetate rigid foams

Usage of Bio-Based Materials in Indoor Members

List of contributors

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