Affiliation:
1. Department of Materials Convergence and System Engineering Changwon National University Changwon Republic of Korea
2. Department of 3D Printing Materials Korea Institute of Materials Science Changwon Republic of Korea
3. School of Materials Science and Engineering Changwon National University Changwon Republic of Korea
Abstract
AbstractExpanded graphite was introduced into a MgO‐C refractory to suppress its thermal expansion and thus enhance thermal shock resistance. The refractory was prepared by mixing MgO powders (particle size = 75 μm and 1 mm), antioxidant and curing agents, flake and expanded graphite, and a novolak‐type phenolic resin at 50°C. This was followed by aging at 20°C for 24 h, compacting by uniaxial pressing, curing at 210°C for 5 h, and heat treatment at 1500°C. With an increase in expanded graphite content from 0 to 4 wt.%, the bulk density decreased, apparent density remained unchanged, and apparent porosity increased. The gaps created in the vicinity of MgO particles because of this increase in apparent porosity buffered the thermal expansion of MgO. This increased resistance to thermal shock up to 1500°C. However, the increase in expanded graphite content also had a detrimental effect reflected in the decrease in fracture strength and increase in the residual strain after repeated thermal shock. This contradiction indicates that composition optimization is important for the practical performance enhancement of MgO‐C bricks. The optimum content of the expanded graphite was determined as 2 wt.%.
Subject
Materials Chemistry,Marketing,Condensed Matter Physics,Ceramics and Composites
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