Residual Mechanical and Structural Properties of Non-Calcined Hwangto Concrete After Exposure to High Temperatures
Taehyung Kim, Wonchang Kim, Hajun Im, Taegyu Lee

TL;DR
This study shows that adding non-calcined Hwangto to concrete improves its strength and stability after exposure to high temperatures.
Contribution
The novel finding is that non-calcined Hwangto enhances concrete's thermal stability and residual strength through microstructural preservation.
Findings
Concrete with 30% non-calcined Hwangto retained 28.2% of its strength at 700°C, outperforming plain and 15% replacement samples.
Temporary strength recovery was observed between 200–300°C due to internal autoclaving.
Kaolinite in non-calcined Hwangto converts to metakaolin, reducing crack propagation and preserving hydration products.
Abstract
This study evaluated the residual mechanical properties of concrete in which Ordinary Portland Cement (OPC) was partially replaced with non-calcined Hwangto (NHT). Specimens were prepared with two water-to-binder (W/B) ratios (0.41 and 0.33) and three NHT replacement levels (0%, 15%, and 30%). The specimens were exposed to elevated temperatures of 20, 100, 200, 300, 500, and 700 °C at a heating rate of 1 °C/min. The results indicated that while the initial compressive strength at room temperature decreased with increasing NHT content, the residual mechanical performance at high temperatures significantly improved. Notably, temporary strength recovery was observed in the 200–300 °C range due to the internal autoclaving effect. At 700 °C, the NHTC (non-calcined Hwangto concrete)-30 series exhibited the highest thermal stability, retaining 28.2% of its initial compressive strength, whereas…
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Taxonomy
TopicsFire effects on concrete materials · Concrete and Cement Materials Research · Concrete Properties and Behavior
