3 research outputs found
Shear behaviour of crushed concrete and bricks
Demolition waste materials mainly consist of concrete
and bricks and arise from the demolition of existing
structures and buildings. Environmental and economical
reasons make their recycling necessary, but to date, their
use is curtailed due to the lack of research in determining
their properties. This paper reports on the efforts to
understand the behavioural characteristics of three types
of recycled material to determine their potential for
engineering fill applications. For this purpose, their
physical and mechanical characteristics were extensively
investigated. Two types of crushed concrete, one
obtained straight after demolition and the other processed
to industry specifications, and one type of crushed
brick were tested. An extensive large-scale shear box test
regime was employed to determine the shear strength
behaviour of the materials. The influence of the normal
stress on the peak friction angle, the shear stress–
horizontal displacement relationship and horizontal displacement–
vertical displacement behaviour of the materials
are discussed in this paper. The results showed that
the behaviour of the three recycled materials during
shear testing was similar to the behaviour exhibited by
natural granular materials from literature. In conclusion,
the shear box test results have shown that the specific
demolition waste products exhibit considerable shear
strength and can be utilised in construction as low-level
engineering fill