Physico-Chemical Properties and Characterization of CaO-Fe2O3-P2O5 Glass as a Bioactive Ceramic Material

Journal of Biomimetics, Biomaterials and Tissue Engineering Pub Date : 2012-01-31 DOI:10.4028/www.scientific.net/JBBTE.12.1

M. R. Majhi, R. Kumar, S.P. Singh, R. Pyare

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引用次数: 6

Abstract

The Aim of this Work Is to Investigate Role of Iron in Calcium-Iron-Phosphate Bioglass. the Density, Compressive Strength, Tg Point and Leachability of Cations Were Measured. the Ph Behaviour of Simulated Body Fluid after Soaking Phosphate Glasses for Different Time Periods Were Also Studied and it Was Observed that Higher Phosphate Glasses Containing Lower Lime Possessed Better Bioactivity than Lower Phosphate Glasses Containing More Iron and Lime Contents. the DTA and FTIR Spectrometry of Glasses Were Performed. the Absorption Spectra Showed that Iron Was Present in the Glass only as Fe3+ Ion. the Leachability of Ca2+ and Fe3+ Ions from Glass Was due to Diffusion Control and P5+ Ion due to Network Break down of PO4 Tetrahedra. the DTA Peaks Were Broad. the FTIR Band around 1000 Cm-1 in Glass Was due to Asymmetric Stretching of O=P=O Linkage. the FTIR Absorption and Reflectance Spectrometry of the Glass Samples after SBF Treatment Had Confirmed the Deposition of Bone-Like Hydroxyl Carbonate Apatite Layer on the Glass Surfaces for their Bioactivity. the Bands Centred in between 2880-3425 Cm-1 Were due to Presence of OH Groups and Stretching Modes of H-O-H Vibration in Glasses. the Properties and Structure Relationship for Glasses Were Established and the Results Were Discussed.

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生物活性陶瓷材料CaO-Fe2O3-P2O5玻璃的理化性质及表征

本文旨在探讨铁在磷酸铁钙生物玻璃中的作用。测定了阳离子的密度、抗压强度、Tg点和浸出率。研究了磷酸盐玻璃浸泡不同时间后模拟体液的Ph值变化，发现含少量石灰的高磷酸盐玻璃比含较多铁和石灰的低磷酸盐玻璃具有更好的生物活性。对玻璃进行了DTA和FTIR光谱分析。吸收光谱表明，铁在玻璃中仅以Fe3+离子的形式存在。Ca2+和Fe3+离子的可浸出性主要是由于扩散控制，P5+离子的可浸出性主要是由于PO4四面体的网络破坏。DTA峰宽。在1000 Cm-1附近的FTIR波段是由于O=P=O键的不对称拉伸。经SBF处理后的玻璃样品的FTIR吸收和反射光谱分析证实，在玻璃表面沉积了骨状羟基碳酸盐磷灰石层，具有生物活性。以2880 ~ 3425 Cm-1为中心的谱带是由于OH基团的存在和H-O-H振动的拉伸模式造成的。建立了玻璃的性能和结构关系，并对结果进行了讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Biomimetics, Biomaterials and Tissue Engineering

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