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Development of Large Bandgap Materials Using Reactive Growth in Al-SI Eutectic for Optical and RF Applications (2018)

Choa, Fow-Sen ; Cooper, C. ; Gill, Puneet ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Carbon was utilized as reactive element to modify the microstructure using forced mixing during crystallization of the Al-Si alloy by rotation and stirring. We nucleated the material on SiC substrates while the Al-Si melt was rotated with a speed of 30rpm in a graphite crucible. Several experiments were performed and parameters such as time of mixing, soaking temperature, rotation rate of the substrate and rate of cooling during the solidification was changed. We observed dendrite and cell morphologies during the solidification of rotating melt. The microstructure was characterized by optical microscopy and SEM-EDX and compositional spectroscopy. The effect of carbon impurities was studied on the solidifying microstructure. When we used the longer soak time of the melt in presence of carbon impurities we observed the destruction of dendritic morphology and the formation of cellular and colony structures. Similar approach has been used for Ga2O3, a novel large bandgap material also.

Keywords: Inorganic, Organic and Physical Chemistry

Type: M18-6926 , Materials Science &amp; Technology (MS&amp;T) 2018; Oct 14, 2018 - Oct 18, 2018; Columbus, OH; United States

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Effect of Radiation on Biologically Active Glasses (2018)

Arnold, Brad ; Lee, Brit ; Bowman, Eric ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Multifunctional hydroxyapatites single crystals have been studied for their applications as the laser host material since past several decades. It is only recently their potential has been evaluated for bioactive materials. In the past researches, Czochralski and flux growth methods have been utilized to achieve single crystals. We have used low temperature processing techniques for synthesis. Organic melt was used to achieve oriented fibers by the directional solidification method. This organic treated material has different characteristics than coarsened oxide materials. Our approach involved low temperature processing using nano engineered powders of the material system Na2O-K2O-CaO- MgO-SrO-SiO2. Also, borates were processed by sintering and grain growth. Effect of -ray was studied by measuring the electrical characteristics of radiated samples. Our experiments to further improve mechanical characteristics indicate that substitution of calcium with some other elements such as gallium have great potential to improve the radiation hardening and mechanical properties of bones.

Keywords: Inorganic, Organic and Physical Chemistry

Type: M18-6925 , Materials Science &amp; Technology (MS&amp;T) 2018; Oct 14, 2018 - Oct 18, 2018; Columbus, OH; United States

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