Journal of Advanced Materials in Engineering (Esteghlal)

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An important parameter in composite materials is mechanical behavior and matrix-reinforcement interface interaction under applied stresses. In this investigation, bending strength of carbon-carbon composites synthesized from wood was analyzed as a measure of the composite mechanical properties. Also, densification efficiency of the products was determined by measuring the bulk density and open porosity percentage. Using scanning electron microscopy, optical microscopy, X-Ray diffraction, and Raman spectroscopy, the final product was examined to evaluate and interpret the morphology and internal texture and results of mechanical test. The results showed that we are able to use an ordinary material such as wood for production of a unique product with great properties called two-dimensional carbon-carbon composites.

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In the present study, silica aerogel was evaluated by a two-step catalytic process at the ambient pressure drying, under different synthesis conditions. The effects of  the catalyst and water content in the hydrolysis step on the physical properties of silica aerogel, including density, porosity and shrinkage, were investigated. The results showed that increasing the water content in the hydrolysis step increased the shrinkage of gel network and density of obtained aerogel. Moreover, in the presence of insufficient water, NH₄OH as the condensation catalyst in the gel formation step was more effective on the physical properties of silica aerogel, as compared to HCl as  thehydrolysis catalyst; Moreover, the increase in the NH₄OH content led to lower density and higher porosity. On the other hand, NH₄OH effect on the physical properties of silica aerogel was not noticeable in the presence of enough water content. In the NH₄OH/HCl molar ratio of 6, the best silica aerogel sample was obtained with the density of 0.214 g/cm³, porosity of 90% and shrinkage of 23%

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