添加莫来石后高岭土基硅酸盐陶瓷杨氏模量的温度依赖性

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS

Open Ceramics Pub Date : 2025-03-28 DOI:10.1016/j.oceram.2025.100774

Petra Šimonová , Eva Gregorová , Willi Pabst , Daria Viazun , Petr Bezdička

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引用次数: 0

摘要

采用脉冲激发技术（IET）研究了添加莫来石的高岭土硅酸盐陶瓷在1100、1200、1300、1400和1500℃煅烧时杨氏模量与温度的关系。在1200°C左右观察到最小值，随后急剧增加到~ 120 GPa，并在~ 1270°C逐步中断，最终值为60-70 GPa，直到1500°C保持不变。这种特殊的行为可以通过以下假设来解释：玻璃熔体能够修复预先存在的微裂纹，玻璃相的软化导致共振频率峰值的分裂，即相互连接的莫来石骨架（67-75 wt. %）和骨架间玻璃相（24-28 wt. %）的弯曲振动的解耦。当莫来石晶体断裂时，材料的微观结构由双连续型转变为基体包合型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Temperature dependence of Young's modulus of kaolin-based silicate ceramics with mullite addition

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Temperature dependence of Young's modulus of kaolin-based silicate ceramics with mullite addition

The temperature dependence of Young's modulus of kaolin-based silicate ceramics with mullite addition fired at 1100, 1200, 1300, 1400 and 1500 °C is investigated using the impulse excitation technique (IET). A minimum is observed at around 1200 °C, followed by a steep increase to ∼120 GPa and a stepwise discontinuity at ∼1270 °C to final values of 60–70 GPa, which are retained up to 1500 °C. This peculiar behavior can be explained by the assumption that the glass melt is able to heal pre-existent microcracks and the softening of the glass phase leads to a splitting of the resonant frequency peak, i.e. a decoupling of the flexural vibrations of the interconnected mullite skeleton (67–75 wt. %) and the interskeletal glassy phase (24–28 wt. %), which finally leads to a discontinuity when the mullite crystals become disconnected and the microstructure of the material changes from bicontinuous to matrix-inclusion type.

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