TY - GEN
T1 - Monotonic and cyclic compressive properties of rubberised concrete
AU - Xu, Bowen
AU - Bompa, Dan V.
AU - Elghazouli, Ahmed Y.
N1 - Publisher Copyright:
© fédération internationale du béton (fib).
PY - 2020
Y1 - 2020
N2 - This paper examines the fundamental constitutive response of concrete materials incorporating relatively high proportions of recycled tyre rubber particles. A series of experimental studies on rubberised concrete specimens, subjected to monotonic and cyclic compression, are presented. The testing arrangements, material details and main observations are described. The monotonic tests allow for an in-depth understanding of the effects rubber particles have on the properties of concrete, including on the compressive strength, elastic modulus and crushing strain, whilst the cyclic tests assess the unloading and reloading properties of rubberised concrete. The increase of rubber content is shown to reduce the stiffness and strength, but improve the ductility, as well as the inter-cycle stability and compressive recovery properties under cyclic loading. The test results enable the definition of a set of analytical expressions describing the complete stress-strain envelope and key cyclic constitutive parameters of rubberised concrete as a function of the volumetric rubber ratio. Along with other expressions for direct shear and concrete-rebar interface response, the proposed constitutive equations can be employed for non-linear modelling of structural rubberised concrete.
AB - This paper examines the fundamental constitutive response of concrete materials incorporating relatively high proportions of recycled tyre rubber particles. A series of experimental studies on rubberised concrete specimens, subjected to monotonic and cyclic compression, are presented. The testing arrangements, material details and main observations are described. The monotonic tests allow for an in-depth understanding of the effects rubber particles have on the properties of concrete, including on the compressive strength, elastic modulus and crushing strain, whilst the cyclic tests assess the unloading and reloading properties of rubberised concrete. The increase of rubber content is shown to reduce the stiffness and strength, but improve the ductility, as well as the inter-cycle stability and compressive recovery properties under cyclic loading. The test results enable the definition of a set of analytical expressions describing the complete stress-strain envelope and key cyclic constitutive parameters of rubberised concrete as a function of the volumetric rubber ratio. Along with other expressions for direct shear and concrete-rebar interface response, the proposed constitutive equations can be employed for non-linear modelling of structural rubberised concrete.
KW - Constitutive modelling
KW - Cyclic behaviour
KW - Mechanical properties
KW - Recycled rubber
KW - Rubberised concrete
UR - http://www.scopus.com/inward/record.url?scp=85134796297&partnerID=8YFLogxK
M3 - Conference Proceeding
AN - SCOPUS:85102400010
SN - 9782940643042
T3 - fib Symposium
SP - 109
EP - 117
BT - Proceedings of the fib Symposium 2020
A2 - Zhao, Bin
A2 - Lu, Xilin
PB - fib. The International Federation for Structural Concrete
T2 - International fib Symposium on Concrete structures for resilient society, 2020
Y2 - 22 November 2020 through 24 November 2020
ER -