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"Ag-coated ceramic containers"

A Study of Conductive Materials and Performance Comparison According to the Manufacturing Process for Induction Heating Ceramics Container
Jun-woo Lee, Ji-hui Oh, Yong-nam Kim, Sang-mo Koo, Dong-won Lee, Jong-min Oh
J Electr Electron Mater 2024;37(6):668-674.   Published online November 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.6.14
Recently, as environmental issues caused by gas stoves have led to the widespread adoption of induction appliances, specialized cookware for induction is essential. However, due to the inability of ceramic containers to be directly used on induction cooktops, a conductive coating is required on the bottom of the cookware, presenting limitations such as complex deposition processes and extended coating times in existing methods including thermal spraying, dip coating, and transcription method. We confirmed the potential of heat-resistant cookware for induction use by coating the bottom of the ceramic container with Ag through a simple manufacturing process of screen-printing and measuring its thermal conductivity and reliability. The Ag-coated ceramic cookware produced by screen-printing demonstrated similar thermal conductivity and reliability to those made using the traditional method of transfer printing. In addition, the adhesive strength before and after thermal shock testing was even superior in the screen-printing method, which suggests a higher expected lifespan. As a result, it is expected that induction-compatible heat-resistant ceramic containers with excellent performance and lifespan will be manufactured through the screen-printing process, which is more cost-effective and efficient compared to other methods.
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