Failure of Lightweight Aggregate Concrete in Compression under Stress Gradients

Abstract: The objective of this experiment is to investigate the behaviour of lightweight aggregate concrete (LWAC) under compression and with stress gradients. Experimental program contained three sets of LWAC which were used for production of 21 prisms. Lightweight aggregate argillite slate, called Stalite, from North Carolina had been used. The sets differed in using dry (0.10% moisture content) or saturated (7.9% moisture content) aggregate. The third set included a small amount of polyvinyl alcohol fibres (PVA). Th… Show more

“…The applied compressive load coupled with friction of surface were responsible at hindering more crack distribution ( Figure 12 a). It is known that specimens with higher strengths will result in smaller strains before failure leading to a brittle material [ 72 ]. Crack widths generally seemed to reduce in number for the specimens without WTR and they increased after introduction of BCP and WTR.…”

A study on mechanical properties of rubberised concrete containing burnt clay powder

“…The applied compressive load coupled with friction of surface were responsible at hindering more crack distribution ( Figure 12 a). It is known that specimens with higher strengths will result in smaller strains before failure leading to a brittle material [ 72 ]. Crack widths generally seemed to reduce in number for the specimens without WTR and they increased after introduction of BCP and WTR.…”

A study on mechanical properties of rubberised concrete containing burnt clay powder

Development of a Lytag-silica fume based lightweight concrete and corresponding design equation for pure bending