Abstract :
Currently there is interest in exploring the commercial viability of using ash from the erupting Soufriere Hills volcano on the island of Montserrat in the eastern Caribbean as a flux component in ceramics. Consequently, the fired characteristics (at 1100 degreeC) of model test pieces fabricated from blends of the ash, covering the range 0-30%, with a low plasticity clay and a high plasticity clay (both kaolinitic) of Trinidad have been investigated. The results show that while 5-10% of the ash has little effect on the fired physical and mechanical properties of the low plasticity clay, 15% and above more than doubles the strength and significantly lowers the porosity. At the same time the linear shrinkage is increased by only a few per cent. On the other hand, addition of the ash to the high plasticity clay appears detrimental. In particular, compared with the properties of the clay without ash, increasing amounts of ash progressively and significantly decrease both the green and fired strength and slightly increase the fired porosity. Further, fracture toughness K,c measurements suggest that addition of ash above 15% has an embrittling effect. Based on calculation and microscopy, increased critical flaw size with increased ash content seems to account for the deleterious effects of the ash on the fired properties of the high plasticity clay. In turn, the increased critical flaw size is believed to he a consequence of stress induced microcracking on cooling caused by a difference in thermal expansion coefficient between the vitrified clay phase and the fused ash phase. BCT/269 The author is in the Department of Physics, University of the West Indies, St Augustine, Trinidad and Tobago. Manuscript received 2 May 1997; in final form 28 April 1998.
