Elif Bahar scite author profile

We use polypropylene (PP, an apolar polymer) and cellulose nano whiskers (CNW, a polar material) to produce nano polymer composites with enhanced mechanical and thermal properties. To improve compatibility, maleic anhydride grafted PP has also been used as a coupling agent. To enhance the uniform distribution of CNW in the composite, the matrix polymer is dissolved in toluene, and sonification and magnetic stirring are applied. Good film transparency indicates uniform CNW dispersion, but CNW domains in the composite film observed under an scanning electron microscope may indicate slight agglomeration of CNW in the composite film. The tensile strength of the composite compared with neat PP improves by 70-80% with the addition of CNW. The crystallinity has also been improved by about 50% in the CNW reinforced samples. As the content of CNW increases, the composite exhibits higher thermal degradation temperature, higher hydrophilicity, and higher thermal conductivity.

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Thermal and mechanical properties of composite nanofiber webs and films containing cellulose nanowhiskers

Uçar

Ayaz

Bahar

et al. 2012

Textile Research Journal

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In this study, nanocomposites reinforced with cellulose nanowhiskers (CNWs) were prepared by employing three different fabrication methods. These methods include electrospinning of nanofiber webs using a single-component nozzle, electrospinning of nanofiber webs using a coaxial bi-component nozzle, and film casting followed by compression molding. Maleic anhydride grafted elastomeric polymer was used as the polymer matrix. Nanocomposite samples obtained from these three different systems were characterized in terms of morphology, and mechanical and thermal properties. The processing–structure–property relationships of the nanocomposites are discussed in this paper.

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The COVID-19 Shock and Productivity-Enhancing Reallocation in Australia: Real-time evidence from Single Touch Payroll

Andrews¹,

Hambur²,

Bahar³

2021

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The Effects of COVID-19 and JobKeeper on Productivity-Enhancing Reallocation in Australia

2023

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Kompozit Nanolif ve Isı Uygulanmış Nanoliflerin Üretim ve Analizi

Ayaz¹,

Uçar²,

Bahar³

et al. 2012

J Text Eng

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Elif Bahar

Thermal and mechanical properties of polypropylene nanocomposite materials reinforced with cellulose nano whiskers

Thermal and mechanical properties of composite nanofiber webs and films containing cellulose nanowhiskers

The COVID-19 Shock and Productivity-Enhancing Reallocation in Australia: Real-time evidence from Single Touch Payroll

The Effects of COVID-19 and JobKeeper on Productivity-Enhancing Reallocation in Australia

Kompozit Nanolif ve Isı Uygulanmış Nanoliflerin Üretim ve Analizi

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