Civil Engineering Reference
In-Depth Information
material is very dependent on the treatment of these wastes. at present PeT
fibres are used to replace steel fibres and some authors even report the use
of PeT concrete mixtures for repairing concrete structures submitted to high
underwater erosion. nevertheless, future investigations should clarify which
treatments can maximize concrete performance while having the lowest
environmental impact. Further investigations should also be carried on about
the use of other polymeric wastes in concrete.
13.6 References
aiello, M.; leuzzi, F. (2010) Waste tyre rubberized concrete: Properties at fresh and
hardened state.
Waste Management
, Vol.30, 1696-1704.
akcaozoglu, S.; atis, c.; akcaozoglu, S.K. (2010) an investigation on the use of shredded
waste PeT bottles as aggregates in lightweight concrete.
Waste Management
, Vol.30,
285-290.
Albano, C.; Camacho, N.; Reyes, J.; Feliu, J.; Hernández, M. (2005) Influence of scrap
rubber addition to Portland concrete composites: destructive and non-destructive
testing.
Composite Structure
, Vol.71, 439-446.
Albano, C.; Camacho, N.; Hernandez, M.; Gutierrez, A. (2009) Influence of content
and particle size of waste PeT bottles on concrete behaviour at different W/c ratios.
Waste Management
, Vol.29, 2707-2716.
alhozaimy, a.; Shannag, M. (2009) Performance of concretes reinforced with recycled
plastic fibres.
Magazine of Concrete Research
, Vol.61, 293-298.
anison, M. (1964) an investigation into a hypothetical deformation and failure mechanism
for concrete.
Magazine of Concrete Research,
Vol.47, 73-82.
ASTM C1018-97 (1997) Standard test method for flexural toughness and first-crack
strength of fibre-reinforced concrete. Pennsylvania.
Balaha, M.; Badawy, a.; hashish, M. (2007) effect of using ground waste tire rubber
as fine aggregate on the behaviour of concrete mixes.
Indian Journal of Engineering
and Materials Sciences
, Vol.14, 427-435.
Batayneh, M.; Marie, i.; asi, i. (2007) Use of selected waste materials in concrete mixes.
Waste Management
, Vol.27, 1870-1876.
Batayneh, M.; Marie, i.; asi, i. (2008) Promoting the use of crumb rubber concrete in
developing countries.
Journal of Waste Management
, Vol.28, 2171-2176.
Benosman, a.; Taibi, h.; Mouli, M.; Belbachir, M.; Senhadji, Y. (2008) Diffusion of
chloride ions in polymer-mortar composites.
Journal of Applied Polymer Science
,
Vol.110, 1600-1605.
Biel, T.; lee, h. (1996) Magnesium oxychloride cement concrete with recycled tire rubber.
Transportation research Board, report no. 1561. Washington, Dc: Transportation
research Board, 6-12.
Bignozzi, M.; Sandrolini, F. (2006) Tyre rubber waste recycling in self-compacting
concrete.
Cement and Concrete Research
, Vol.36, 735-739.
cairns, r.; Kew, h.; Kenny, M. (2004) The use of recycled rubber tyres in concrete
construction. Final report, The onyx environmental Trust, University of Strathclyde,
glasgow.
chen, S.; Su, h.; chang, J.; lee, W.; huang, K. hsieh, l.; huang, Y.; lin, W.; lin, c.
(2007) emissions of polycyclic aromatic hydrocarbons (Pahs) from the pyrolysis of
scrap tyres.
Atmospheric Environment
, Vol.41, 1209-1220.
