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European Journal of Environmental and Civil Engineering Volume 23, 2019 - Issue 8
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Original Articles

The influence of sand nature on the residual physical and mechanical properties of concrete after exposure to elevated temperature

Samya HachemiDepartment of Civil Engineering and Hydraulic, University of Biskra, Biskra, AlgeriaCorrespondence[email protected] [email protected]
&
Abdelhafid OunisDepartment of Civil Engineering and Hydraulic, University of Biskra, Biskra, Algeria
Pages 1003-1018 | Received 22 May 2016, Accepted 04 May 2017, Published online: 22 May 2017

References

  • Barkat, M., & Mezghiche, B. (2012). Effects of mineral additions and fluidifying adjuvants on the rheological behavior of fresh and hardened mortars and concretes based on quarry sands ( Thesis of magister of civil engineering – modeling of Materials and structures). University of Biskra, Biskra.
  • Bazant, Z. P., & Kaplan, M. F. (1996). Concrete at high temperature: Material properties and mathematical models. London: Longman Group Limited.
  • Beck, K., Janvier-Badosa, S., Brunetaud, X., Török, Á., & Al-Mukhtar, M. (2016). Non-destructive diagnosis by colorimetry of building stone subjected to high temperatures. European Journal of Environmental and Civil Engineering, 20, 643–655.
  • Chu, H.-Y., Jiang, J.-Y., Sun, W., & Zhang, M. (2016). Thermal behavior of siliceous and ferro-siliceous sacrificial concrete subjected to elevated temperatures. Materials and Design, 95, 470–480.
  • Dreux, G., & Festa, J. (1998). New guide to concrete and its constituents (Vol. 8, pp. 205–284). Paris: Edition Eyrolles.
  • European Standard NF EN 12390-3. (2003). Test for hardened concrete Part 3: Compressive strength of test specimens. ISSN 0335-3931. The French Association of Standardization (AFNOR). 11 avenue Francis de Pressensé France 93571 Saint-Denis La Plaine Cedex.
  • European Standard NF EN 12390-4. (2000). Test for hardened concrete Part 4: Characteristics of test machines. ISSN 0335-3931. The French Association of Standardization (AFNOR). 11 avenue Francis de Pressensé France 93571 Saint-Denis La Plaine Cedex.
  • European Standard NF EN 12390-7. (2001). Test for hardened concrete Part 7: Density of concrete. ISSN 0335-3931. The French Association of Standardization (AFNOR), 11 avenue Francis de Pressensé 93571 Saint-Denis La Plaine Cedex.
  • Fares, H., Noumowé, A., & Remond, S. (2009). Self-consolidating concrete subjected to high temperature – Mechanical and physicochemical properties. Cement and Concrete Research, 39, 1230–1238.
  • French Association for Standardization AFNOR P 18-418. (1989). Concrete – Sonic auscultation - measurement of the sonic wave transmission time in concrete. Tour Europe cedex 7 92080. Paris defense.
  • French standardization P 18-554. (1990). Aggregates – Measurement of densities, porosity, absorption coefficient and water content of fine gravel and pebbles. French Association for Standardization (AFNOR). Tour Europe cedex 7 92049. Paris.
  • Hachemi, S. (2015). Study of the behavior of concrete subjected to high temperature: Influence of the type of concrete and the nature of the constituents ( Thesis of science Doctorate in Civil Engineering). University of Biskra, Biskra.
  • Hachemi, S., & Ounis, A. (2015). Performance of concrete containing crushed brick aggregate exposed to different fire temperatures. European Journal of Environmental and Civil Engineering, 19, 805–824.
  • Hager, I., Tracz, T., Śliwiński, J., & Krzemień, K. (2016). The influence of aggregate type on the physical and mechanical properties of high-performance concrete subjected to high temperature. Fire and Materials, 40, 668–682. doi:10.1002/fam.2318
  • ISO/TR 15655. (2003). Fire resistance – Tests for thermo-physical and mechanical properties of structural materials at elevated temperatures for fire engineering design ( Technical report). Geneva.
  • Khaliq, W., & Anis Khan, H. (2015). High temperature material properties of calcium aluminate cement. Concrete, Construction and Building Materials, 94, 475–487.
  • Khouadjia, M. L. K., Mezghiche, B., & Drissi, M. (2016). Study of the mechanical behavior of concrete based on quarry sand modified with dune sand and sand of oued: Experimentation and digitization. The 3rd International Workshop on Waste Management and Sustainable Development, Tangier.
  • Khoury, G. A. (1992). Compressive strength of concrete at high temperature: A reassessment. Magazine of Concrete Research, 44, 291–309.
  • Khoury, G. A., Anderberg, Y., Both, K., Fellinger, J., Hoj, N. P., & Majorana, C. (2007). Fire design of concrete structures-materials, structures and modeling. State of art report, FIB Bulletin N° 38.
  • Miličević, I., Štirmer, N., & Banjad, P. I. (2016). Residual mechanical properties of concrete made with crushed clay bricks and roof tiles aggregate after exposure to high temperatures. Materials, 9, 295. doi:10.3390/ma9040295
  • Mindeguia, J.-C., Pimienta, P., Carré, H., & La Borderie, C. (2012). On the influence of aggregate nature on concrete behaviour at high temperature. European Journal of Environmental and Civil Engineering, 16, 236–253.
  • Noumowé, A. N., Clastres, P., Debick, G., & Costaz, J.-L. (1996). Transient heating effect on high strength concrete. Nuclear Engineering and Design, 166, 99–108.
  • Poon, C.-S., Azhar, S., Anson, M., & Wong, Y.-L. (2001). Comparison of the strength and durability performance of normal- and high-strength pozzolanic concretes at elevated temperatures. Cement and Concrete Research, 31, 1291–1300.
  • Rayssac, E., Auriol, J. C., Deneele, D., Larrard, F., Ledee, V., & Platret, G. (2009). Recovery of LD steelworks slag for road infrastructure. Bull Laboratory Bridges Roads, 275, 27–38.
  • Sarhat, S. R., & Sherwood, E. G. (2011). The behaviour of recycled aggregate concrete at elevated temperatures. Proceedings of 2nd International engineering mechanics and materials specialty conference, Ottawa.
  • Tanyildizi, H., & Şahin, M. (2015). Application of Taguchi method for optimization of concrete strengthened with polymer after high temperature. Construction and Building Materials, 79, 97–103.
  • Technical Sheet. (2013). Physico-mechanical characteristics and chemical composition. Ain Touta: Company of cements of Ain Touta.
  • Xing, Z., Beaucour, A.-L., Hebert, R., Noumowé, A., & Ledesert, B. (2011). Influence of the nature of aggregates on the behaviour of concrete subjected to elevated temperature. Cement and Concrete Research, 41, 392–402.
  • Xing, Z., Hébert, R., Beaucour, A.-L., Ledésert, B., & Noumowé, A. (2014). Influence of chemical and mineralogical composition of concrete aggregates on their behaviour at elevated temperature. Materials and Structures, RILEM, 47, 1921–1940.
  • Xing, Z., Beaucour, A.-L., Hebert, R., Noumowé, A., & Ledesert, B. (2015). Aggregate’s influence on thermophysical concrete properties at elevated temperature. Construction and Building Materials, 95, 18–28.

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