Cracking of alpha-LiAlO2 matrices in molten carbonate fuel cells (MCFC) leads to reduction in the performance. It was demonstrated in this work that the mechanical strength of alpha-LiAlO2 matrices is improved by heat-treating at 800 degrees C under ambient gas atmosphere. The mechanical strength (2.91MPa) of the heat-treated matrix was enhanced more than 5 fold compared to the non-heat-treated matrix (0.58MPa). The porosity and crystal structure of the alpha-LiAlO2 matrices were not changed after the heat-treatment. The wetting behavior and distribution of carbonate in the heat-treated and the non-heat-treated matrix were investigated and compared. Both non-heat-treated and heat-treated alpha-LiAlO2 matrices were completely wetted by molten carbonate. The molten carbonate distribution was concentrated right underneath the circular region formed by the molten carbonate drop in the matrix. Non-heat-treated alpha-LiAlO2 samples cracked as a result of the complete absorption of molten carbonate, however, the heat-treated alpha-LiAlO2 matrices did not crack, presumably due to their enhanced mechanical strength. (C) The Author(s) 2018. Published by ECS.