Synthesizability improvement of B4C ceramics by optimizing the process temperature and atmosphere

Seyed Faridaddin Feiz, L. Nikzad, H. Majidian, E. Salahi
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引用次数: 2

Abstract

In this research, the effects of synthesis temperature, holding time, and furnace atmosphere on the synthesizability of B4C ceramics using glucose and boric acid as the starting materials were scrutinized. Three temperatures of 1300, 1400, and 1500 °C were selected as synthesis temperatures. The synthesis process was carried out in a tubular furnace for 4 h in Ar atmosphere. To scrutinize the interactive effect of synthesis temperature and holding time, three samples were synthesized at 1500, 1400, and 1300 °C for 4, 8, and 12 h, respectively. Moreover, two types of controlled atmospheres, traditional Ar and an innovative CO/CO2 setup, were considered to optimize the synthesis process. X-ray diffraction (XRD) patterns were employed to determine the optimum synthesis temperature and atmosphere based on the detection of B4C peaks as the desired product and undesirable hydrocarbon and carbon byproducts. The results showed that B4C synthesized at 1500 °C for 4 h in Ar atmosphere contained the least byproduct impurities, so this temperature was chosen as the optimal choice. However, the sample fabricated at 1400 °C for 8 h is a good choice in cases where lower manufacturing temperatures are desired. The efficiency of the innovative setup was similar to the traditional one; therefore, considering the economic aspects, the CO/CO2 atmosphere was chosen as an acceptable option for B4C synthesis.
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通过优化工艺温度和气氛提高B4C陶瓷的合成性能
研究了以葡萄糖和硼酸为原料,合成温度、保温时间和炉内气氛对B4C陶瓷合成性能的影响。合成温度分别为1300℃、1400℃和1500℃。在管式炉中,在氩气中进行了4h的合成。为了考察合成温度和保温时间的相互作用,我们分别在1500、1400和1300℃下合成了3个样品,分别合成了4、8和12小时。此外,考虑了两种类型的控制气氛,传统的Ar和创新的CO/CO2设置,以优化合成过程。利用x射线衍射(XRD)分析了B4C峰作为期望产物和不期望的碳氢副产物,确定了最佳合成温度和气氛。结果表明,在Ar气氛中1500℃反应4 h合成的B4C副产物杂质最少,因此选择该温度为最佳选择。然而,在需要较低制造温度的情况下,在1400°C下制造8小时的样品是一个很好的选择。创新机构的效率与传统机构相似;因此,从经济角度考虑,选择CO/CO2气氛作为B4C合成的可接受选择。
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