G.M. Kim scite author profile

Blast furnace slag, an industrial by-product, is emerging as a potential raw material to synthesize hydroxyapatite and zeolite. In this study, the effects of temperature on the hydrothermal synthesis of hydroxyapatite-zeolite from blast furnace slag were investigated. Specimens were synthesized at different temperatures (room temperature, 50, 90, 120, or 150 °C). The synthesized specimens were analyzed qualitatively and quantitatively via X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), BET/BJH, and scanning electron microscopy/energy dispersive using X-ray analysis (SEM/EDX). It was found that the hydroxyapatite phase was synthesized at all the reaction temperatures, while faujasite type zeolite appeared in the specimens synthesized at 90 and 120 °C. Moreover, faujasite was replaced by hydroxysodalite in the specimens synthesized at 150 °C. Additionally, the crystals of the hydroxyapatite tended to become larger and total crystallinity increased as the reaction temperature increased.

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Autogenous shrinkage and electrical characteristics of cement pastes and mortars with carbon nanotube and carbon fiber

Kim

Yoon

Lee

2018

Construction and Building Materials

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Improved electromagnetic interference shielding performances of carbon nanotube and carbonyl iron powder (CNT@CIP)-embedded polymeric composites

Jang

Yoon

Seo

et al. 2022

Journal of Materials Research and Technology

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A novel physicomechanical approach to dispersion of carbon nanotubes in polypropylene composites

Kim

Kil

Lee

2021

Composite Structures

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G.M. Kim

Carbon nanotube (CNT) incorporated cementitious composites for functional construction materials: The state of the art

The Effects of Temperature on the Hydrothermal Synthesis of Hydroxyapatite-Zeolite Using Blast Furnace Slag

Autogenous shrinkage and electrical characteristics of cement pastes and mortars with carbon nanotube and carbon fiber

Improved electromagnetic interference shielding performances of carbon nanotube and carbonyl iron powder (CNT@CIP)-embedded polymeric composites

A novel physicomechanical approach to dispersion of carbon nanotubes in polypropylene composites

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