Materials Science and Engineering / Malzeme Bilimi ve Mühendisliği
Permanent URI for this collectionhttps://hdl.handle.net/11147/4719
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Research Project Darbe altında ışıma yapan polimerik filmler ve lif demetlerinin üretilmesi ve uygulamaları(2016) Demir, Mustafa M.; İncel, AnılTribolüminesans (TL) malzemeler darbe altında ışıma özelliğine sahip kristal yapılardır. Bu projede, organik ve metal yapıları bir arada bulunduran iki TL kristal (EuD4TEA ve Cu(NCS)(py)2(PPh3)) elde edilmiş ve mikrometre büyüklüğündeki tanecikler PMMA (poli metil metakrilat), PS (polistiren), PU (poliüretan) ve PVDF (polivinilflorür) saydam özellikteki polimerler kullanılarak ince-katmanlı film, elektrospun lif demetleri ve nano boyutundaki tanecikler elde edilen matrisler ile entegre edilmiştir. Kompozit malzemelerin elde edilmesi için iki farklı deneysel metod geliştirilmiştir: i) yükleme işlemi ve ii) yüzeye depolama işlemi. Kompozit malzemelerin TL performansları bu tez için özel tasarlanan atış kule sistemi ile ölçülmüştür. Bunun yanı sıra, atomik kuvvet mikroskobu (AFM), taramalı elektron mikroskobu (SEM) polimerlerin ve kompozit malzemelerin topografik ve morfolojik özellklerini değerlendirmek için kullanılmıştır. Ayrıca, flüoresans mikroskobu kullanılarak kompozit malzemelerin emisyon sırasındaki renk sinyalleri belirlenmiştir. Son olarak piezoelektrik özellikleri osiloskop kullanılarak belirlenmiştir. Tüm bu cihazlardan elde edilen sonuçlar değerlendirildiğinde, deneysel prosedür, kristal taneciklerin boyutları, polimer malzemenin formu ve yüzey özelliği, kullanılan kristallerin kompozit içindeki miktarı bu çalışmada temel parametreler olarak belirlenmiştir. PU esaslı elde edilen film ve lif demeti kompozitler PMMA, PS, ve PVDF esaslı kompozitlerden daha iyi sonuç göstermiştir. Bunun nedeni olarak, film esaslı kompozitler için ince katmanlı PU filmin daha engebeli ve saydam bir yüzey olması; lif esaslı kompozitler için elektrospun PU liflerin daha küçük yapılardan oluşması, tüm bunlara ek olarak PU’nın kimyasal olarak TL özellikteki iki kristalle kimyasal etkileşim oluşturulması gösterilebilir.Article Citation - WoS: 2The Effect of the Temperature of Heat Treatment Process and the Concentration and Duration of Acid Leaching on the Size and Crystallinity of Nano-Silica Powders Formed by the Dissociation of Natural Diatom Frustule(American Scientific Publishers, 2022) Ülker, Sevkan; Güden, MustafaThe present study focused on the processing of nano-silica powders in varying sizes and crystallinities through IP: 846247.10 On: Wed, 14 Dec 2022 07:29:25 heat treatment (900-1200 degrees C), hydrofluoric acid leaching (1-7 N), and ball milling (1 h, 500 rpm) of natural Copyright American Scentfic P blishers diatom frustules. The starting natural frustules were determined to be composed of amorphous silica (88%) Delivered by Ingenta and quartz. The partially ordered crystalline low-quartz and or precursor to low-cristobalite started to form at-900 degrees C. As the heat treatment temperature increased, the crystallinity of the frustules increased from 9.3% at 25 degrees C to 46% at 1200 degrees C. Applying a ball milling reduced the mean particle sizes of the as-received and heat-treated frustules from 15.6-13.7 mu m to 7.2-6.7 mu m, respectively. Acid leaching of the as-received and heat-treated frustules resulted in a further increase in the crystallinity. Furthermore, a ball milling applied after an acid leaching was very effective in reducing the particle size of the as-received and heat-treated frustules. The mean particle size of the acid-leached frustules decreased to 774-547 nm with a crystallinity varying between 12 and 48% after ball milling. A partially dissolved amorphous phase was observed in between crystalline silica grains after acid leaching, which resulted in a rapid fracture/separation of the frustules in ball milling.Conference Object Development of Graphene Nanoplatelets Reinforced Aluminium Matrix Nanocomposites by a Combination of Semi-Solid Stirring and Ultrasonic Treatment(European Conference on Composite Materials, 2016) Kandemir, Sinan; Aydoğan, YücelGraphene Nanoplatelets (GNPs) consisting of graphene layers with a thickness less than 100 nm have recently emerged as a promising reinforcement type owing to their excellent physical and mechanical properties to improve mechanical properties of alloys beyond ceramic nanoparticles. Although there are numerous studies on GNPs reinforced polymer matrix composites in the literature, the number of studies related to the incorporation of GNPs in metal matrices is limited. It is a challenging task to incorporate and uniformly distribute GNPs into liquid metals due to their poor wettability and large surface-to-volume ratio. The purpose of this study is to effectively disperse GNPs into liquid aluminium. 0.5 wt.% GNPs with an average thickness of 50-100 nm and size of 5 ?m were first incorporated into A360 aluminium alloy under semi-solid stirring, and then the composite was ultrasonically treated in fully liquid state. The microstructural investigation of the nanocomposites by optical and scanning electron microscopy may suggest that relatively uniform distribution and effective deagglomeration of GNPs in the matrix were achieved. The hardness of the GNPs reinforced nanocomposites increased in comparison with that of semi-solid stirred and ultrasonically processed A360 alloy without reinforcement, indicating the potential of GNPs for strengthening metals. © 2016, European Conference on Composite Materials, ECCM. All rights reserved.Conference Object Reversible Energy Transfer Between a Single Defect in Hbn and Graphene(OSA - The Optical Society, 2019) Özçeri, Elif; Arı, Ozan; Balcı, Sinan; Kocabaş, Coşkun; Ateş, SerkanWe present a reversible energy transfer between a single defect in hBN and graphene. Dynamic control of Fermi level of graphene results in switching on and off single photon emission from a single quantum emitter. © OSA 2019 © 2019 The Author(s)