Page 40 - New Trends in Eco efficient and Recycled Concrete

P. 40

Construction and demolition waste 17

Etxeberria, M., Mari, A.R., Vazquez, E., 2007. Recycled aggregate concrete as structural
material. Mater. Struct. 40 (5), 529 541.
Eurostat, 2017. Waste Statistics in Europe. Available: ,https://epp.eurostat.ec.europa.eu.
(accessed 13/06/2017).
Evangelista, L., De Brito, J., 2004 Criteria for the use of fine recycled concrete aggregates in
concrete production. In: Va ´zquez, E., Hendriks, C., Janssen, G.M.T. (Eds.), International
RILEM Conference on the Use of Recycled Materials in Buildings and Structures,
Barcelona, Spain, pp. 503 510.
Evangelista, L., de Brito, J., 2007. Mechanical behaviour of concrete made with fine recycled
concrete aggregates. Cem. Concr. Compos. 29 (5), 397 401.
Evangelista, L., de Brito, J., 2014. Concrete with fine recycled aggregates: a review. Eur. J.
Environ. Civil Eng. 18 (2), 129 172.
Fathifazl, G., Razaqpur, A.G., Isgor, O.B., Abbas, A., Fournier, B., Foo, S., 2011. Creep and
drying shrinkage characteristics of concrete produced with coarse recycled concrete
aggregate. Cem. Concr. Compos. 33 (10), 1026 1037.
Ferreira, L., de Brito, J., Barra, M., 2011. Influence of the pre-saturation of recycled coarse
concrete aggregates on concrete properties. Mag. Concr. Res. 63 (8), 617 627.
Fonseca, N., de Brito, J., Evangelista, L., 2011. The influence of curing conditions on the
mechanical performance of concrete made with recycled concrete waste. Cem. Concr.
Compos. 33 (6), 637 643.
Freedonia, 2012 World Construction Aggregates, The Freedonia Group, Cleveland, OH,
USA, 334 p.
Garcı ´a-Gonza ´lez, J., Moran-Del Pozo, J.M., Rodriguez-Robles, D., Guerra-Romero, M.I.,
Juan-Valdes, A., 2015. Porosity and pore size distribution in recycled concrete. Mag.
Concr. Res. 67 (22), 1214 1221.
Garcia-Gonzalez, J., Barroqueiro, T., Evangelista, L., de Brito, J., De Belie, N., Moran-del
Pozo, J., et al., 2017. Fracture energy of coarse recycled aggregate concrete using the
wedge splitting test method: influence of water-reducing admixtures. Mater. Struct. 50
(2), 15.
Geng, Y., Wang, Y.Y., Chen, J., 2016. Creep behaviour of concrete using recycled coarse
aggregates obtained from source concrete with different strengths. Constr. Build. Mater.
128, 199 213.
Gokce, A., Nagataki, S., Saeki, T., Hisada, M., 2004. Freezing and thawing resistance of air-
entrained concrete incorporating recycled coarse aggregate: the role of air content in
demolished concrete. Cem. Concr. Res. 34 (5), 799 806.
Gokce, A., Nagataki, S., Saeki, B., Hisada, M., 2011. Identification of frost-susceptible
recycled concrete aggregates for durability of concrete. Constr. Build. Mater. 25 (5),
2426 2431.
Gomes, M., de Brito, J., 2009. Structural concrete with incorporation of coarse recycled con-
crete and ceramic aggregates: durability performance. Mater. Struct. 42 (5), 663 675.
Gomez-Soberon, J.M.V., 2002. Creep of concrete with substitution of normal aggregate by
recycled concrete aggregate. In: Malhotra, V.M. (Ed.), Innovations in Design with
Emphasis on Seismic, Wind, and Environmental Loading: Quality Control and
Innovations in Materials/Hot-Weather Concreting. pp. 461 474.
Gonza ´lez, A., Etxeberria, M., 2014. Experimental analysis of properties of high performance
recycled aggregate concrete. Constr. Build. Mater. 52, 227 235.
Gonzalez-Corominas, A., Etxeberria, M., Poon, C.S., 2016. Influence of steam curing on the
pore structures and mechanical properties of fly-ash high performance concrete prepared
with recycled aggregates. Cem. Concr. Compos. 71, 77 84.

35 36 37 38 39 40 41 42 43 44 45