Proposed Model for Strength Analysis of HSC Eccentrically Loaded Slender Columns
Magazine of Concrete Research • 2017
معلومات البحث
المؤلفون
Abdel-Karim, M., Abdel-Rahman, G.T., Said, M and Shaaban, I.G.
الكلمات المفتاحية
Compressive strength/loads & loading/structural
design
المجلة العلمية
Magazine of Concrete Research
الناشر
Magazine of Concrete Research ISSN 0024-9831 | E-ISSN 1751-763X
المجلد
published ahead of print
العدد
Published Online: September 21, 2017
الصفحات
Not Available
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
A model for the strength analysis of high-strength concrete (HSC) columns subjected to eccentric loading is proposed. The model is based on a stability analysis of pin-ended columns using the theoretical sinusoidal equation for the deflected shape of the column. The reduction in column stiffness as the axial load increases, representing the basic characteristic of the inelastic response of columns, is considered subject to equilibrium conditions, compatibility requirements, and constitutive relationships for the concrete and reinforcement. The tension-stiffening effect was taken into consideration. The column integrity is limited by either the material or the instability mode of failure.
The method was applied to a wide range of experimental data and was compared with the Egyptian, European, and American building codes of practice. The ultimate strength predicted by the proposed model showed excellent agreement with the test results and was in good agreement with the codes of practice. The mean predicted-to-experimental ultimate load ratio was 0·94, with a coefficient of variation of 10·8%.
The method was applied to a wide range of experimental data and was compared with the Egyptian, European, and American building codes of practice. The ultimate strength predicted by the proposed model showed excellent agreement with the test results and was in good agreement with the codes of practice. The mean predicted-to-experimental ultimate load ratio was 0·94, with a coefficient of variation of 10·8%.
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