The influence of firing conditions on mechanical properties of LTCC material was studied. The biaxial flexural strength of LTCC material was measured for samples fired at different temperatures for various periods of time. The ball on three balls method was used for biaxial flexural strength testing. At the low firing temperature the material was still porous and the biaxial flexural strength was low. A higher biaxial flexural strength was reached at firing at longer time or higher temperature due to low porosity. Mechanical properties were correlated with phase composition of fired sample.
COBISS.SI-ID: 23947559
In this paper, we have demonstrated the use of LTCC technology for production of 3 D structures. LTCC technology has been used for the manufacture of electromechanical systems, these are the pressure sensor and chemical microsystem, and this is the reformer for methanol.
COBISS.SI-ID: 23880487