Thermo-mechanical test rig for experimental evaluation of thermal conductivity of ceramic pebble beds

•Thermal conductivity values of bed as function of a material of known conductivity.•Minimizing the error caused by radial heat transfer.•Experimental evaluation of thermal conductivity of alumina pebble at different temperatures.•Experimental test with/without compression load.

The experimental determination of mechanical and thermal properties of ceramic pebble beds, such as the lithium orthosilicate or lithium metatitanate, is a key issue in the framework of fusion power technology, for the reason that they are possible candidates in the design of breeder blankets.The paper deals with an experimental method for the evaluation of the thermal conductivity of ceramic pebble beds versus the temperature and compressive strain, based on a steady state heat flux through a material (alumina) of known conductivity. The alumina thermal conductivity is determined by means of the hot wire method. To assess the experimental method, a thermo-mechanical characterization of alumina pebble beds (a material largely available), having different diameters, considering a wide range of temperatures and compression forces has been carried out.Moreover preliminary tests have been performed on lithium orthosilicate and lithium metatitanate pebble beds.