Influence of Coke and Graphite on the Decomposition and Melting Behavior of a Mold Flux

E. Benavidez, L. Santini, Alejandro Martín, E. Brandaleze
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引用次数: 1

Abstract

The melting kinetics of mold fluxes used in steel continuous casting represents a fundamental factor to be considered in order to obtain a quality product without superficial defects and also to avoid production problems. This melting stage is controlled mainly by the type and amount of carbonaceous material added to the powder. In this work, structure, particle size and morphology of two carbonaceous materials: petroleum coke and synthetic graphite were analyzed. Both carbonaceous materials were separately added to a decarburized commercial mold flux. The melting behavior was monitored by HSM (hot stage microscopy) and a melting interval was identified using critical temperatures. A higher fusion rate, as inverse of melting interval, was observed in powder with coke addition. This fact was associated to a lower crystalline degree and a finer PSD (particle size distribution) presented by petroleum coke. Different values of the activation energy of decomposition were related to fusion rate of both mold fluxes. Higher rate of changes in activation energy during the progress of the reaction was observed in the sample with coke. This fact is associated to a faster change in the surface area of coke particles.
焦炭和石墨对助熔剂分解和熔化行为的影响
连铸中使用的助熔剂的熔化动力学是获得无表面缺陷的优质产品和避免生产问题的一个基本因素。这一熔化阶段主要由添加到粉末中的碳质材料的种类和数量控制。本文对石油焦和合成石墨两种含碳材料的结构、粒度和形貌进行了分析。将两种含碳材料分别添加到脱碳的商业模具助焊剂中。用热段显微镜监测熔炼行为,用临界温度确定熔炼区间。添加焦炭的粉末熔合速率与熔合间隔成反比。这一事实与石油焦的结晶度较低和PSD(粒度分布)较细有关。不同的分解活化能值与两种助熔剂的熔合速率有关。在反应过程中,在有焦炭的样品中观察到较高的活化能变化率。这一事实与焦炭颗粒表面积变化较快有关。
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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