Polycrystalline samples of the mixed nanoferrites, Li0·5 + 0·5x Ti x Fe2·5 − 1·5x O4 (0·02 ≤ x ≤ 0·1), were prepared by combustion method at lower temperatures compared to the conventional high temperature sintering for the first time at low temperatures, using PEG which acts as a new fuel and oxidant. XRD patterns reveal a single-phase cubic spinel structure. The as synthesized Li–Ti ferrites are in nanocrystalline phase. The crystallite size was found to be in the range 16–27 nm. SEM images reveal rod-like morphology in all the samples with a discontinuous grain growth. The B–H loops have been traced using VSM technique, for all the compositions, at room temperature and the hysteresis parameters are calculated. Saturation magnetization decreases with increase in Ti content due to the fact that the Ti4 + ion, which is a non-magnetic ion, replaces a magnetic Fe3 + ion. The hysteresis loops show clear saturation at an applied field of ±10 kOe and the loops are highly symmetric in nature. The cation distribution is known indirectly by using saturation magnetization values.
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机译:Li 0·5 + 0·5x Ti x Fe 2·5-1·5x O 的混合纳米铁氧体的多晶样品4 (0·02≤x≤0·1)是在低温下通过燃烧方法制备的,与常规的高温首次低温烧结相比,使用PEG作为新的燃料和氧化剂。 XRD图谱显示出单相立方尖晶石结构。合成的Li-Ti铁氧体处于纳米晶相。发现微晶尺寸在16-27nm范围内。 SEM图像显示所有样品中的棒状形态,晶粒生长不连续。使用VSM技术已对B–H回路进行了追踪,对于所有成分,均在室温下进行了计算,并计算了磁滞参数。由于Ti 4 + 离子(一种非磁性离子)替代磁性Fe 3 + 离子这一事实,饱和磁化强度随Ti含量的增加而降低。磁滞回线在±10 kOe的外加磁场下表现出明显的饱和度,并且回线本质上是高度对称的。通过使用饱和磁化值间接知道阳离子分布。
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