A Comparative Study on the Properties of Potentially Bioactive Glasses Obtained by Sol-Gel Technique and by Melting Mixtures of Oxides

Scientific Bulletin of Valahia University Materials and Mechanics Pub Date : 2017-10-01 DOI:10.1515/bsmm-2017-0013

D. Avram, D. Ungureanu, N. Angelescu, J. L. Barroso de Aguiar

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引用次数: 4

Abstract

Abstract Phosphocalcic glasses, based on ternary system SiO2 - CaO- P2O5 and those doped with copper (SiO2 – CaO - P2O5 - Cu2O) can be obtained by the traditional method of sub-cooling melts or modern methods such as process that uses mechanical energy, neutrons action, deposition in thin layers or by sol-gel technique. This paper shows the experimental results of three compositional phosphocalcic glasses: 50% SiO2 - 43% CaO - 7% P2O5, 50% SiO2 - 38% CaO - 7% P2O5 - 5% Cu2O obtained through sol-gel method and 45% SiO2 - 22.5% CaO - 22.5 Na2O - 5% P2O5 - 5% Cu2O obtained by melting. In order to study their bioactivity, the three compositions were structural analyzed by X-ray diffraction method. In this case the apatite formation was highlighted after soaked in simulated body fluid, but also other compounds (CaCO3 and CuO) resulting from the same process were observed. In case of the melting glass apatite formation has not been highlighted. The functional groups present in the structure of glasses before and after soaking (PO43−, CO32− and HO−) were highlighted by the Fourier Transform Infrared Spectroscopy (FTIR). The elemental chemical composition was confirmed by elemental analysis WD-XRF. The morphology of sol-gel glass powders was revealed by SEM analysis. All glass compositions were tested in terms of antibacterial activity in vitro.

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溶胶-凝胶法与氧化物熔融法制备的潜在生物活性玻璃的性能比较研究

基于SiO2 - CaO- P2O5三元体系和掺杂铜(SiO2 - CaO- P2O5 - Cu2O)的磷钙玻璃可采用传统的过冷熔体法制备，也可采用机械能、中子作用、薄层沉积或溶胶-凝胶法制备。本文介绍了溶胶-凝胶法制备50% SiO2 - 43% CaO - 7% P2O5、50% SiO2 - 38% CaO - 7% P2O5 - 5% Cu2O和熔融法制备45% SiO2 - 22.5% CaO - 22.5 Na2O - 5% P2O5 - 5% Cu2O三种组成磷钙玻璃的实验结果。为了研究其生物活性，用x射线衍射法对三种成分进行了结构分析。在这种情况下，在模拟体液中浸泡后，突出显示了磷灰石的形成，但也观察到由相同过程产生的其他化合物(CaCO3和CuO)。在熔融玻璃的情况下，磷灰石的形成没有被突出显示。傅里叶变换红外光谱(FTIR)分析了浸泡前后玻璃结构中存在的官能团(PO43−，CO32−和HO−)。元素化学成分通过元素分析WD-XRF确认。SEM分析了溶胶-凝胶玻璃粉的形貌。对所有玻璃组合物进行了体外抗菌活性测试。

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Scientific Bulletin of Valahia University Materials and Mechanics

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4 weeks