Articles
  • Factors in forming a junction by glass infiltration between different materials for a LTCC application
  • Seung-hyouk Honga,b, Zee-hoon Parka, Ui-kyeoung Janga, Hyo-soon Shina,*, Dong-hun Yeoa and Sahn Nahmb
  • a Future Convergence Ceramic Division. Korea Institute of Ceramic Engineering and Technology, Seoul, 153-801, Korea b Department of Materials Science and Engineering, Korea University, Seoul, 136-701, Korea
Abstract
The need for embedding the passive components into a LTCC substrate also has been increasingly focused on. In a junction between different materials, there have been two main problems such as shrinkage difference and interaction. In this study, zero-shrinkage glass infiltration technology was adopted for the junction. Two types of commercial glasses were examined for their glass transition temperatures, viscosities at high temperature and wetting angles to ceramic powders. The wetting angle was the most dominant in the infiltration behavior. 'Pb-B-Si-O'glass which has a low wetting angle was adequate for the junction for it infiltrated completely up to 28ߦ into both alumina and barium titanate layers.

Keywords: LTCC, Glass infiltration, Wetting angle.

This Article

  • 2010; 11(5): 566-569

    Published on Oct 31, 2010

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