In the literature, there are a numb

In the literature, there are a number of studies on pumice, lightweight
concretes, heat insulation on building material, optimization
of bricks [17–22]. Sariisik and Sariisik studied on production
of pumice aggregate lightweight concrete and EPS foam insulation
block and its compliance with standards as well as comparing it
with other masonry materials. They found that this kind of insulation
blocks’ thermal conductivity, unit weight and cost are lower
than those of other building materials [23]. Ait-Taleb et al. [24]
tried to determinate empirical transfer function coefficients for
vertically heated hollow concrete bricks by following a two step
numerical procedure and used a simulation program to measure
heat transfer by conduction, convection, and radiation. Majed
[25] studied the effect of the baffles’ length and location attached
inside the brick on the thermal resistance of the hollow bricks
and he found that the thermal resistance of the baffled brick is over
than that of the non-baffled brick and use of the longer baffles increased
the thermal resistance. Silvana et al. [26] investigated thermal
behavior of building walls in summer and compared their
analytical results with experimental results.
In this paper, in order to achieve both a good thermal insulation
and reasonable compressive strength value for a lighter block, the
thicknesses of sandwich type insulation brick composed of EPS and
pumice blocks were optimized using CATIA V5 and ANSYS 12
simulation softwares (Compressive strength and the heat transfer
analysis respectively).