Effect of Different Forms of Silica on Sintering, Microstructure and Properties of Borosilicate Glass/Al2O3 Composites
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2014年第1期
论文作者:刘明 ZHOU Hongqing ZHU Haikui YUE Zhenxing ZHAO Jianxin
文章页码:58 - 64
摘 要:The effects of the introduction of silica glass and silica ceramic into Ca-Al-B-Si-O glass/ Al2O3 composites on decreasing the shrinkage and the dielectric constant of samples were investigated by FTIR, DSC, XRD and SEM. The results show that silica ceramic filler can better improve the formation of Si– O–Si network in the composites under high temperature, which leads to increased continuity of glass network at high temperature, and deduces the increase of viscosity of composites and further results in the decrease in the shrinkage of samples. Densification, three-point strength, and dielectric constant of samples decrease with the increase of silica glass or silica ceramic content. By contrast, Ca-Al-B-Si-O glass/Al2O3 composites with 4 wt% silica ceramic exhibit better properties of a bulk density of 2.81 g cm-3, a porosity of 0.3%, a 3dp value of 202 MPa, a ε r value of 7.41, a tan δ value of 8.3×10-4at 10 MHz and a well matching with Ag electrodes. This material is suitable to be used as the LTCC material for the application in wireless communications.
刘明1,2,ZHOU Hongqing1,ZHU Haikui1,YUE Zhenxing3,ZHAO Jianxin1
1. College of Materials Science and Engineering, Nanjing University of Technology2. Department of Materials Science and Engineering, Luoyang Institute of Science and Technology3. State Key Laboratory of New Ceramic and Fine Processing, Tsinghua University
摘 要:The effects of the introduction of silica glass and silica ceramic into Ca-Al-B-Si-O glass/ Al2O3 composites on decreasing the shrinkage and the dielectric constant of samples were investigated by FTIR, DSC, XRD and SEM. The results show that silica ceramic filler can better improve the formation of Si– O–Si network in the composites under high temperature, which leads to increased continuity of glass network at high temperature, and deduces the increase of viscosity of composites and further results in the decrease in the shrinkage of samples. Densification, three-point strength, and dielectric constant of samples decrease with the increase of silica glass or silica ceramic content. By contrast, Ca-Al-B-Si-O glass/Al2O3 composites with 4 wt% silica ceramic exhibit better properties of a bulk density of 2.81 g cm-3, a porosity of 0.3%, a 3dp value of 202 MPa, a ε r value of 7.41, a tan δ value of 8.3×10-4at 10 MHz and a well matching with Ag electrodes. This material is suitable to be used as the LTCC material for the application in wireless communications.
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