Influences of mechanical activation and tartaric acid addition on the efficiency of B4C synthesis

Seyed Faridaddin Feiz, L. Nikzad, H. Majidian, E. Salahi
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引用次数: 1

Abstract

In this paper, mechanical activation and tartaric acid addition were employed to reduce the residual carbon and intensify the efficiency of B4C synthesis using glucose and boric acid as starting materials. To investigate the role of mechanical activation on synthesis performance, one sample was subjected to high-energy ball milling before pyrolysis and the other after pyrolysis. To study the role of additives, in the precursor production stage, on synthesis efficiency and residual carbon reduction, different amounts of tartaric acid (0, 5, 10, 25, and 50 wt%) were tested. FT-IR and XRD analyses were used to characterize the bonds created in the precursors and the phases formed during the pyrolysis and synthesis steps, respectively. The results confirmed that mechanical activation before synthesis can improve the synthesis efficiency, but ball milling before pyrolysis did not significantly affect the final synthesis product. The addition of tartaric acid enhanced the formation of B–C bonds; hence, it increased the efficiency of B4C synthesis. The optimum additive amount was 25 wt% and higher amounts weakened the synthesis performance.
机械活化和酒石酸加入对B4C合成效率的影响
本文以葡萄糖和硼酸为原料,采用机械活化和添加酒石酸来减少残碳,提高合成B4C的效率。为了研究机械活化对合成性能的影响,在热解前和热解后分别对一种样品进行高能球磨。为了研究添加剂在前驱体生产阶段对合成效率和残碳还原的作用,测试了不同量的酒石酸(0、5、10、25和50% wt%)。利用FT-IR和XRD分析分别表征了前驱体中形成的键以及热解和合成过程中形成的相。结果证实,合成前机械活化可以提高合成效率,而热解前球磨对最终合成产物影响不显著。酒石酸的加入促进了B-C键的形成;从而提高了B4C的合成效率。最佳添加量为25 wt%,添加量越大,合成性能越差。
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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