Effect of the addition of colored and not-colored glass waste on the mechanical performance of concrete

T. Ben Chabane, O. Fedaoui-Akmoussi, F. Taouche-Kheloui, T. Djadoun, K. Ait tahar

Abstract


Abstract:Waste recycling contributes topreservation of conventional natural aggregates, reduces greenhouse gas emissions. The recovery of wasteglass reduces storage volumes and allows the conservation of landfill spaces. The use of waste glass in the form of powders and aggregates ensures the lightening of building elements, better economic development and the promotion of new field materials.

The aim of this experimental study is to recover waste glass by incorporating them by partial substitution in concrete in order to reduce the cement and sandquantities. Two types of waste glass were used: colored and not-colored glass from the bottles which are widespread in nature. The rates of 0%; 5%; 10% and 15% were used to replace cement and sand. The mechanical strengths were performed at 28 and 365 days. The results obtained confirm that the use of this type of waste at precise rates increases the compressive strength of concrete. Indeed, the finely ground glass powder improves long-term mechanical behavior of concrete due to its interesting pozzolanic effect.

Full Text:

PDF

References


Safer, O.; Belas, N.; Belguesmia, K.; Belaribi, O.; Mebrouki, A.; Bouhamou, N. Influence de l’incorporation de la vase du barrage Chorfa sur les performances mécaniques des bétons ordinaires. Algerian Journal of Environnement Science and Technology 3:3-A (2017) 478-484.

Midgle, H.G.; Illston, J.M. The penetration of chlorides in to hardened cements pastes. Cement and Concrete Research 14 (1984) 546–558.

Dreux G.; Jean festa. Nouveau guide du béton et de ses constituants. Édition Eyrolles (1998).

Shi, C.; Wu, Y.; Rieflerb, C.; Wang, H. Characteristics and pozzolanic reactivity of glass powders. Cement and Concrete Research (2005) 987–993.

Garcia-diaz, E.; Riche, J.; Bulteel, D.; Vernet, C. Mechanism of damage for silica reaction. Cement and Concrete Research 36 (2006) 395–400.

Shi, C.; Wu, Y.; Shao, Y.; Riefler, C. Alkali-aggregate reaction of concrete containing ground glass powder. Proceedings of the 12th International Conference on AAR in Concrete (2004) 789–95.

Tagnit-Hamou, A.; Nkinamubanzi, P-C. Les ajouts cimentaires et le développement durable. Note trimestrielle d’information du Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction 08 (2002) 9–11.

Kojima, T.; Tagagi, N.; Haruta, K. Expanding characteristics of mortar in glass powder produced from waste bottles. 11 th International conference on Alkali Aggregate Reaction, Quebec (2000).

Mafalda Matos, A.; Sousa-Coutinho, J. Durability of mortar using waste glass powder as cement replacement. Construction and Building Materials 36 (2012) 205–215.

Idir, R. Mécanisme d’action des fines et des granulats de verre sur la réaction alcali-silice et la réaction pouzzolanique. Thèse de doctorat INSA Toulouse (2009).

Chen, C.H.; Huang, R.; Wu, J.K.; Yang, C. Waste E-glass particles used in cementitious mixtures. Cement and Concrete Research 36 (2006) 449-456.

Shayan, A.; Xu, A. Performance of glass powder as a pozzolanic material in concrete: A field trial on concrete slabs. Cement and Concrete Research 36 (2006) 457-468.

Taha, B.; Nounu, G. Properties of concrete contain mixed color waste recycled glass as sand and cement replacement. Construction and Building Materials 22 (2008) 713-720.

Taha, B.; Nounu, G. Using lithium nitrate and pozzolanic glass powder in concrete as ASR suppressors. Cement and Concrete Composites 30 (2008) 497-505.

Shao, Y.; Lefort, T.; Moras, S.; Rodriguez, D. Studies on Concrete Containing Ground Waste Glass. Cement and Concrete Research 30 (2000) 91-100.

Karamberi, A.; Moutsatsou, A. Participation of Colored Glass Cullet in Cementitious Materials. Cement and Concrete Composites 27 (2005) 319-327.

Idir, R.; Cyr, M.; Tagnit-Hamou, A. Use of waste glass in cement-based materials. Déchets sciences et techniques, 57, (2010) 10.

Lker, I.; Topc, B.; Canbaz, M. Properties of concrete containing waste glass. Cement and Concrete Research 34 (2004) 267-274.

Chen, G.; Lee, H.; Lun Young, K.; Yu, P.; Wong, A.; Tao, T.; Cho, KK. Glass recycling in cement production – an innovative approach, Waste Manage 22 (2002) 747 – 753.

Schwarz, N.; Dubois, M.; Neithalath, N. Electrical conductivity based characterization of plan and coarse glass powder modified cement pastes. Cement and concrete composites 29 (2007) 656 – 666.

Kamali, M.; Ghahremaninezhad, A. Effect of glass powders on the mechanical and durability properties of cementitious materials. Construction and building materials, – Elsevier 98 (2015) 407-416.

Soliman, N.A.; Tagnit-Hamou, A. Development of ultra-high-performance concrete using glass powder towards ecofriendly concrete. Construction and Building Materials 125 (2016) 600–612.


Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License. Copyright UMMB © 2020 University M'hamed Bougara - Boumerdes. Independance AV., Boumerdes, 35000 Algeria, Tel/Fax: +213 24 91 14 98/ +213 2491-29-51