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Economical reactive powder concrete cast using available materials in North Sinai, Egypt

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this research reactive powder concrete (RPC) was prepared using sand from North Sinai. The mechanical properties of locally cast RPC were investigated and evaluated by studying the effects of using different cement and silica fume contents and new steel fibers’ aspect ratios as reinforcement for RPC. Specimens’ preparation, curing regimes and testing procedures to evaluate the compressive strength, the modulus of elasticity, the indirect tensile strength and the flexural strength were discussed. A compressive strength of 154.5MPa, indirect tensile strength of 11.98MPa, modulus of elasticity of 45.1GPa and flexural strength of 30.26MPa have been achieved for reinforced RPC contains 800 kg/m3 cement content and silica fume content 30% of cement weight. The test results showed some improvements by increasing cement and silica fume contentsas well as adding steel fibers on the compressive strength, modulus of elasticity and indirect tensile strength.
Rocznik
Strony
175--195
Opis fizyczny
Bibliogr. 27 poz., il., tab.
Twórcy
autor
  • Civil Engineering Department, Faculty of Engineering, Menoufiya University, Egypt
  • Civil Engineering Department, Faculty of Engineering, Menoufiya University, Egypt
autor
  • Civil Engineering Department, Faculty of Engineering Science, Sinai University, Egypt
Bibliografia
  • 1. Xiaoa, J., Schneiderb, H., Donneckeb, C., Konigb G.: Wedge Splitting Test on Fracture Behaviour of Ultra High Strength Concrete. Construction and Building Materials. 18, 359-365 (2004).
  • 2. Prabha, S.L., Dattatreya, J.K., Neelamegam, M., Seshagirirao, M.V.: Study on Stress-Strain Properties of Reactive Powder Concrete under Uniaxial Compression, International Journal of Engineering Science and Technology. 2 (11), 6408-6416 (2010).
  • 3. Washer, G., Fuchs, P., Graybeal, B.: Elastic Properties of Reactive Powder Concrete, International Symposium on Non-Destructive Testing in Civil Engineering (NDT-CE 2003), Germany (2003)
  • 4. Abdelrazig, B.: Properties and Applications of CeraCem Ultra High Performance Self Compacting Concrete, Proceeding of the International Conference on Construction and Building Technology. 20, 217-226 (2008).
  • 5. Moallem, M.R.: Flexural Redistribution in Ultra-High Performance Concrete Lab Specimens, M.Sc. Thesis, Russ College of Engineering and Technology, Ohio University, USA (2010).
  • 6. Emerging Construction Technologies: Purdue University web. http://rebar.ecn.purdue.edu/ect/links/technologies/Civil/Reactive.aspx (2011) Accessed 11 April 2011.
  • 7. Richard, P., Cheyrezy, M.: Composition of reactive powder concrete, Cement and Concrete Research 5(7), 1501- 1511 (1995).
  • 8. Cheyrezy, M., Maret, V., Frouin, L.: Micro structural analysis of RPC (Reactive Powder Concrete), Cement and Concrete Research 25(7), 1491-1500 (1995).
  • 9. JSCE No. 9: Guidelines for Concrete, Recommendation for design and construction of ultra high strength fiber reinforced concrete structures (Draft), Japan Society of Civil Engineers (JSCE), Japan (2006).
  • 10. Ipek, M., Yilmaz, K., Sümer, M., Saribiyik, M.: Effect of pre-setting pressure applied to mechanical behaviours of reactive powder concrete during setting phase, Construction and Building Materials 25(1), 61-68 (2011).
  • 11. Yang, I.H., John, C., Kim, B.S.: Structural behavior of ultra high performance concrete beams subjected to bending, Engineering Structures Journal 32, 3478-3487 (2010).
  • 12. Collepardi, S., Coppola, L., Troli, R., Collepardi, M.: Mechanical Properties of Modified Reactive Powder Concrete, Proceedings of the Fifth Conference on Super-plasticizers and Other Chemical Admixtures in Concrete, ACI Publication SP-173, Rome, Italy 1-21 (1997).
  • 13. Jooss, M.: Leaching of Concrete under Thermal Influence, Otto-Graf-Journal 12, 51-68 (2001).
  • 14. Matte, V., Moranville, M.: Durability of Reactive Powder Composites: influence of silica fume on the leaching properties of very low water/binder pastes, Cement and Concrete Composites 21, 1-9 (1999)
  • 15. Shihada, S., Arafa, M.: Effects of silica fume, ultrafine and mixing sequences on properties of ultrahigh performance concrete, Asian Journal of Materials Science, 2(3), 137-146 (2010).
  • 16. Rashid, M.A., Mansur, M.A.: Considerations in producing high strength concrete, Journal of Civil Engineering (IEB) 37(1), 53-63 (2009).
  • 17. Habel, K., Viviani, M., Denarié, E., Brühwiler, E.: Development of the mechanical properties of an Ultra-High Performance Fiber Reinforced Concrete (UHPFRC), Cement and Concrete Research 36, 1362-1370 (2006).
  • 18. E.S.S. 4756-1/2009: Ordinary Portland Cement, Egyptian Standard Specification, Egypt (2009).
  • 19. ASTM C 494-03: Chemical Admixtures, American Society for Testing and Materials (ASTM), ASTM International, Philadelphia, USA (2003).
  • 20. E.C.P. 203/2007: Design and Construction for Reinforced Concrete Structures, Egyptian Code of Practice, Research Centre for Houses Building and Physical Planning, Cairo, Egypt (2007).
  • 21. Lee, M.G., Kan, Y.C., Chen, K.C.: A Preliminary Study of RPC for Repair and Retrofitting Materials, Journal of the Chinese Institute of Engineers 29(6), 1099-1103 (2006).
  • 22. Lee, M.G., Wang, Y.C., Chiu, C.T.: A preliminary study of reactive powder concrete as a new repair material, Construction and Building Materials 21, 182-189 (2007).
  • 23. Reeves, E.: Structural Reliability of Ultra-High Performance Concrete in Flexure, M.Sc. Thesis, Faculty of the Fritz J. and Dolores H. Russ, College of Engineering and Technology, Ohio University, USA (2004).
  • 24. Jungwirth, J.: Under-spanned Bridge Structures in Reactive Powder Concrete, 4th International Ph.D. Symposium in Civil Engineering, Munich, Germany (2002).
  • 25. Yazici, H., Yardimci, M.Y., Aydin, S., Karabulut, A.S.: Mechanical properties of reactive powder concrete containing mineral admixtures under different curing regimes, Construction and Building Materials 23, 1223-1231 (2009).
  • 26. Maroliya, M.K., Modhera, C.D.: A Comparative Study of Reactive Powder Concrete Containing Steel Fibers and Recron 3S Fibers, Journal of Engineering Research and Studies 1(1), 83-89 (2010).
  • 27. Hong, K.N., Kang, S.T., Kim, S.W., Park, J.J., Han, S.H.: Material properties of air-cured ultrahigh-performance steel-fiber-reinforced concrete at early ages, International Journal of the Physical Sciences 5(17), 2622-2634 (2010).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-be149520-a8f7-41b2-9880-6b2fca346e59
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