SWS Academic Research eLibraryEarth & Planetary Sciences

Scholarly record

EXPERIMENTAL STUDY AND MODELING OF FIBER-REINFORCED POLYMER JAKTED CONCRETE COLUMNS UNDER COMPRESSIVE LOADING

Ghernouti, Youcef, Rabehi, Bahia

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bf6/s26.012View metrics

Publication Impact Profile

PlumX
  • Captures
  • Mendeley - Readers: 2

Publication details

Title
EXPERIMENTAL STUDY AND MODELING OF FIBER-REINFORCED POLYMER JAKTED CONCRETE COLUMNS UNDER COMPRESSIVE LOADING
Authors
Ghernouti, Youcef, Rabehi, Bahia
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2013
Pages
435 - 442 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References46
  1. American Concrete Institute (ACI) Committee 440. Report on fiber -reinforced polymer (FRP) reinforcement for concrete structures – ACI 440R-07. Farmington Hills (MI): ACI; 2007.

  2. R. Benzaid, Nasr -Eddine Chikh, H . Mesbah. “ Behaviour of square concrete column confined with GFRP composite wrap”. Journal of civil engineering and management. 2008. 14(2): 115–120

  3. M. Seffoa, M. Hamchob. “Strength of Concrete Cylinder Confined by Composite Materials (CFRP)” Energy Procedia. 19 (2012) 276 – 285. GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  4. K.H. Tan, T. Bhowmik, T. Balendra . “Confinement model for FRP -bonded capsule haped concrete columns” Engineering Structures. 51 (2013) 51–59

  5. R. Benzaid, H Mesbah and Nasr Eddine Chikh “ FRP-confined Concrete Cylinders: Axial Compression Experiments and Strength Model ” Journal of Reinforced plastics and composites, Vol. 29, No. 16/2010

  6. V. Tamuzs, R. Tepfers, E. Zile and O. Ladnova. “ Behavior of concrete cylinders confined by carbon composite”. Mechanics of Composite Materials, Vol. 42, No. 4, 2006

  7. Campione, G.; Miraglia, N. 2003. “ Strength and strain capacities of concrete compression members reinforced with FRP”, Cement and Concrete Composites 25(1): 31–41.

  8. Youssef, M. N.; Feng, M. Q.; Mosallam, A. S. 2007. Stressstrain model for concrete confined by FRP composites, Composites, Part B 38: 614–628.

  9. Wang, L. M.; Wu, Y. F. 2008. “Effect of corner radius on the performance of CFRP - confined square concrete columns: Test”, Engineering Structures 30: 493–505.

  10. Teng, J. G.; Lam, L. 2002. « Compressive behaviour of carbon fibre reinforced polymer - confined concrete in elliptical columns”, Journal of Structural Engineering 128(12): 1535–1543.

  11. Parvin, A.; Wang, W. 2001. “Behaviour of FRP jacketed concrete columns under eccentric loading”, Journal of Composites for Construction 5(3): 146–152.

  12. Xiao, Y. and Wu, H. (2003). “Compressive behavior of concrete confi ned by various types of FRP composite jackets”, Journal of reinforced plastics and composites, 22 (13): 1187-1201.

  13. . Xiao, Y. and Wu, H. (2000). “Compressive behavior of confined concrete by carbon fiber composite jackets”, Journal of materials in civil engineering, 12 (2): 139-146.

  14. . Mirmiran, A. and Shahawy, M. (1997). “Bihavior of concrete columns confined by fiber composites”, Journal of structural Engineering, ACSE, 123 (5): 583-590.

  15. . Samaan, M., Mirmiran, A. and Shahawy, M. (1998). “Model of concrete confined by fiber composites”, Journal of structural Engineering, ACSE,124 (9): 1025-1031.

  16. Berthet, J. F., Ferrier, E. and Hamelin, P. (2006). “Compressive Behavior of Concrete Externally Confined by Composite Jackets. Part B: Modeling ”. Constriction and Building Materials, 20: 338–347.

  17. Baris Binici. (2005). “ An Analytical Model for Stress -Strain Behavior of Confined Concrete”, Journal of Engineering Structure, 27: 1040–1051.

  18. Mander, J.B, Prie Stly, M.J.N., Park, R. (1988 a). “ Theorical stress- strain model for confined concrete”, Journal of the structural Division ASCE 114, 1804-1826.

  19. Marwan, N. Y., Maria, Q. F. and Ayman, S. M. (2007). “ Stress-Strain Model for Concrete Confined by FRP Composites, Part B: Engineering”, 38: 614–628.

  20. Mohamed, H. Harajli. (2006). “Axial Stress-Strain Relationship for FRP Confined Circular and Rectangular Concrete Columns”, Cement and Concrete Composites, 28: 338–948.

  21. Fardis M. N et Khalili H. (1981). “ Concrete Encased in Fibreglass Rei nforced Plastic”, AC1 Journal, Proceedings, Vol. 78: No. 6, 440-446 pp.

  22. Miyauchi K., Inoue S., Kuroda T and Kobayashi A. (1997). “Strengthening effects of concrete column with carbon fiber sheet ”, Transaction of the Japon concrete institute. Vol. 21, pp 143-150. 1999

  23. Richart F.E., Brandtzaeg A et Brown R.L. (1928). “ A Study of the Faiure of Concrete under Combined Compressive Stresses ”, University of Illinois, Engineering Experimental Station, Urbana, Bulletin no 185, 104 p.

  24. American Concrete Institute (ACI) Committee 440. Report on fiber -reinforced polymer (FRP) reinforcement for concrete structures – ACI 440R-07. Farmington Hills (MI): ACI; 2007.

  25. R. Benzaid, Nasr -Eddine Chikh, H . Mesbah. “ Behaviour of square concrete column confined with GFRP composite wrap”. Journal of civil engineering and management. 2008. 14(2): 115–120

  26. M. Seffoa, M. Hamchob. “Strength of Concrete Cylinder Confined by Composite Materials (CFRP)” Energy Procedia. 19 (2012) 276 – 285. GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  27. K.H. Tan, T. Bhowmik, T. Balendra . “Confinement model for FRP -bonded capsule haped concrete columns” Engineering Structures. 51 (2013) 51–59

  28. R. Benzaid, H Mesbah and Nasr Eddine Chikh “ FRP-confined Concrete Cylinders: Axial Compression Experiments and Strength Model ” Journal of Reinforced plastics and composites, Vol. 29, No. 16/2010

  29. V. Tamuzs, R. Tepfers, E. Zile and O. Ladnova. “ Behavior of concrete cylinders confined by carbon composite”. Mechanics of Composite Materials, Vol. 42, No. 4, 2006

  30. Campione, G.; Miraglia, N. 2003. “ Strength and strain capacities of concrete compression members reinforced with FRP”, Cement and Concrete Composites 25(1): 31–41.

  31. Youssef, M. N.; Feng, M. Q.; Mosallam, A. S. 2007. Stressstrain model for concrete confined by FRP composites, Composites, Part B 38: 614–628.

  32. Wang, L. M.; Wu, Y. F. 2008. “Effect of corner radius on the performance of CFRP - confined square concrete columns: Test”, Engineering Structures 30: 493–505.

  33. Teng, J. G.; Lam, L. 2002. « Compressive behaviour of carbon fibre reinforced polymer - confined concrete in elliptical columns”, Journal of Structural Engineering 128(12): 1535–1543.

  34. Parvin, A.; Wang, W. 2001. “Behaviour of FRP jacketed concrete columns under eccentric loading”, Journal of Composites for Construction 5(3): 146–152.

  35. Xiao, Y. and Wu, H. (2003). “Compressive behavior of concrete confi ned by various types of FRP composite jackets”, Journal of reinforced plastics and composites, 22 (13): 1187-1201.

  36. . Xiao, Y. and Wu, H. (2000). “Compressive behavior of confined concrete by carbon fiber composite jackets”, Journal of materials in civil engineering, 12 (2): 139-146.

  37. . Mirmiran, A. and Shahawy, M. (1997). “Bihavior of concrete columns confined by fiber composites”, Journal of structural Engineering, ACSE, 123 (5): 583-590.

  38. . Samaan, M., Mirmiran, A. and Shahawy, M. (1998). “Model of concrete confined by fiber composites”, Journal of structural Engineering, ACSE,124 (9): 1025-1031.

  39. Berthet, J. F., Ferrier, E. and Hamelin, P. (2006). “Compressive Behavior of Concrete Externally Confined by Composite Jackets. Part B: Modeling ”. Constriction and Building Materials, 20: 338–347.

  40. Baris Binici. (2005). “ An Analytical Model for Stress -Strain Behavior of Confined Concrete”, Journal of Engineering Structure, 27: 1040–1051.

  41. Mander, J.B, Prie Stly, M.J.N., Park, R. (1988 a). “ Theorical stress- strain model for confined concrete”, Journal of the structural Division ASCE 114, 1804-1826.

  42. Marwan, N. Y., Maria, Q. F. and Ayman, S. M. (2007). “ Stress-Strain Model for Concrete Confined by FRP Composites, Part B: Engineering”, 38: 614–628.

  43. Mohamed, H. Harajli. (2006). “Axial Stress-Strain Relationship for FRP Confined Circular and Rectangular Concrete Columns”, Cement and Concrete Composites, 28: 338–948.

  44. Fardis M. N et Khalili H. (1981). “ Concrete Encased in Fibreglass Rei nforced Plastic”, AC1 Journal, Proceedings, Vol. 78: No. 6, 440-446 pp.

  45. Miyauchi K., Inoue S., Kuroda T and Kobayashi A. (1997). “Strengthening effects of concrete column with carbon fiber sheet ”, Transaction of the Japon concrete institute. Vol. 21, pp 143-150. 1999

  46. Richart F.E., Brandtzaeg A et Brown R.L. (1928). “ A Study of the Faiure of Concrete under Combined Compressive Stresses ”, University of Illinois, Engineering Experimental Station, Urbana, Bulletin no 185, 104 p.

View or Download full articleAccess options
Full paper accessChoose SWS login, librarian support, or instant article download.

SWS access login

Login as SWS Scientific Committee

Authors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.

For librarian assistance: [email protected]

Purchase Instant Access

48-hour online accessComing soon
Online-only accessComing soon
Download the full article in PDF formatEUR 35
  • Article can be downloaded after successful payment.
  • Article may be used according to SWS library access terms.
  • Article cannot be redistributed.
Get full paper

Back to publication list