Serviceability Performance of Externally Prestressed Steel-Concrete Composite Girders
محتوى المقالة الرئيسي
الملخص
The behavior of externally prestressed composite beams under short term loading has been studied. A computer program developed originally by Oukaili to evaluate curvature is modified to evaluate the deflection of prestressed composite beam under flexural load. The analysis model based on the deformation compatibility of entire structure that allows to determine the full history of strain and stress distribution along cross section depth, deflection and stress increment in the external tendons .
The evaluation of curvatures for the composite beam involves iterations for computing the strains vectors at each node at any loading stage. The stress increment determined using equations depended on the member deflection at points of connection. The stress increment determined using equations depended on the member deflection at points of connection. The proposed model results for load –deflection response are compared with experimental data taken from Auyyb's beams. For beams with
straight tendon profile the average discrepancy reached 5.77%, 8.48% and 5.23% corresponding to the 0.25, 0.5 and 0.75 of the maximum load, respectively. For beams with the draped tendon profile, the average discrepancy of the analytical deflections values reached 15.5%, 5.8% and 6.45% corresponding to the 0.25, 0.5 and 0.75 of maximum load, respectively.
تفاصيل المقالة
كيفية الاقتباس
تواريخ المنشور
المراجع
• Al-HawWassi, IQbal F (2008) " Short Term Deflection of Ordinary , Partially Prestressed and GFRP Bars Reinforced concrete Beams" master thesis, civil Eng. Dep. college of engineering, university of Baghdad.
• Ayyub B.M, Sohn YG, Saadatmanesh H. Prestressed (1990) "Prestressed composite girders under positive moment." Journal of structural Engineering, Vol. 116, No. 11.
• Filippo Osimani ,( 2004) " The Use of Unbonded Tendons for Prestressed Concrete Bridges" Master Thesis at Department of Structural Engineering, Structural Design and Bridges Group, at the Royal Institute of Technology (KTH) in Stockholm.
• Håkan Nordin (2005), "Strengthening structures with externally prestressed tendons " Literature review, Luleå University of Technology, Technical Report at Department of Civil and Environmental Engineering Division of Structural Engineering
• Harajli M., Khairallah N. and Nassif H. (1999) “Externally Prestressed Members: Evaluation of Second-order Effects” Journal of Strutural Engineering, October 1999, pp 1151-1161.
• Korpenko, N. I., Mukhamediev, T.A. and Petrov, A. N., (1986), "The Initial and Transformed Stress - Strain Diagrams of Steel and Concrete. '' Special Publication, Stress-Strain Condition for Reinforced Concrete Construction, Reinforced Concrete Research Center, Moscow, 7 – 25, as cited in (Oukaili, 1997).
• Oukaili, Nazar K. Ali, (1997), "Moment Capacity and Strength of Reinforced Concrete Members Using Stress-Strain Diagrams of Concrete and Steel", Journal of King Saud University, Vol. 10, pp. 23-44, (in Arabic).
• Saadatmanesh, H., Albrecht, P., and Ayyub, B. M(1989b) "Experimental study of prestressed composite beams." Journal of Structural Engineering, Vol.115, No 9.