Construction of Economical Dip-Coater for the Fabrication of Hydrophobic Coatings

Venkatesh Yepuri, A. Satyanarayana
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引用次数: 1

Abstract

D.C. motors are considered the basic components for the construction and development of various nanotechnology research equipment due to their constant speed and high efficiency. Spin coater, dip-coater, and spray pyrolysis were a few among them which utilize the above-mentioned component for the production of thin-film coatings on the desired substrates. Conventional spin coater, dip-coater, and spray pyrolysis are expensive to install in research laboratories. In this letter, we report the economical construction of an Arduino-based dip-coater that uses a linear actuator consisting of a D.C. motor for the production of hydrophobic coatings. The dip and drawl rate of the as-constructed machine was estimated to be 3mm/sec and can be varied according to the requirement without any interferences of vibration. Further, the dip-coater was tested with TiO2 gel for the production of hydrophobic coatings on cotton fabrics. The coated fabrics were characterized using an X-ray diffractometer (XRD), which confirmed the presence of TiO2, and reflectance analysis using ultraviolet-visible and near-infrared spectroscopy (UV-VIS-NIR) on the coated fabric revealed an increase in the visible and IR range and a decrease on the ultraviolet spectral region. The goniometer investigation with a water droplet on the treated fabric revealed 137O contact angle and the coating is proved as a super hydrophobic coating.
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制备疏水涂料的经济型浸渍机的构建
直流电动机以其恒定的速度和高效率被认为是构建和发展各种纳米技术研究设备的基本部件。其中,旋涂机、浸涂机和喷雾热解是利用上述组分在所需基材上生产薄膜涂层的几种方法。传统的旋转涂布机、浸渍涂布机和喷雾热解机在研究实验室的安装费用昂贵。在这封信中,我们报告了基于arduino的浸涂机的经济结构,该浸涂机使用由直流电机组成的线性执行器来生产疏水涂层。预估成品机的浸拔速率为3mm/秒,可根据需要进行调整,不受振动干扰。进一步,用二氧化钛凝胶对浸涂机进行了测试,用于在棉织物上制备疏水涂层。利用x射线衍射仪(XRD)对涂层织物进行了表征,证实了TiO2的存在;利用紫外-可见和近红外光谱(UV-VIS-NIR)对涂层织物进行了反射分析,结果表明,涂层织物的可见光和红外范围增加,紫外光谱区域减少。用水滴对织物进行角测量,发现接触角为1370°,证明该涂层为超疏水涂层。
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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审稿时长
3 months
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