DUCTILITY OF STEEL FIBER REINFORCED HIGH-STRENGTH CONCRETE COLUMNS UNDER CYCLIC LOADING

LI Feng-lan; HUANG Cheng-kui; WEN Shi-chen; QU Jian-wei

Volume 22 Issue 6

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Engineering Mechanics > 2005 > 22(6): 159-164.

LI Feng-lan, HUANG Cheng-kui, WEN Shi-chen, QU Jian-wei. DUCTILITY OF STEEL FIBER REINFORCED HIGH-STRENGTH CONCRETE COLUMNS UNDER CYCLIC LOADING[J]. Engineering Mechanics, 2005, 22(6): 159-164.

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LI Feng-lan, HUANG Cheng-kui, WEN Shi-chen, QU Jian-wei. DUCTILITY OF STEEL FIBER REINFORCED HIGH-STRENGTH CONCRETE COLUMNS UNDER CYCLIC LOADING[J]. Engineering Mechanics, 2005, 22(6): 159-164.

Citation:

LI Feng-lan, HUANG Cheng-kui, WEN Shi-chen, QU Jian-wei. DUCTILITY OF STEEL FIBER REINFORCED HIGH-STRENGTH CONCRETE COLUMNS UNDER CYCLIC LOADING[J]. Engineering Mechanics, 2005, 22(6): 159-164.

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DUCTILITY OF STEEL FIBER REINFORCED HIGH-STRENGTH CONCRETE COLUMNS UNDER CYCLIC LOADING

State Key Laboratory of Coastal and Offshore Engineering of Dalian University of Technology, Dalian 116023, China;2. North China Institute of Water Conservancy and Hydroelectric Power, Zhengzhou 450011, China

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Received Date: November 05, 2003
Revised Date: February 01, 2004

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Abstract

Abstract

Based on the test of 26 steel fiber reinforced high-strength concrete columns under cyclic loading, the factors affecting the column ductility are analyzed. These factors include the axial compression ratio, the characteristic value of stirrups, the characteristic value of steel fiber, the span to depth ratio and the longitudinal reinforcement. It is demonstrated that the steel fiber has better effects on improving the brittle failure state and increasing the seismic ductility of high strength concrete columns. But the mechanisms of the steel fiber and the stirrups for reinforcing the ductility of high strength concrete columns are different. As a result, the equal seismic ductility cannot be obtained by replacing the stirrups with the equivalent volume ratio of steel fiber. A formula for calculating the displacement ductility coefficient is proposed.
- steel fiber reinforced high-strength concrete,
- column,
- ductility,
- low-cyclic repeated loading,
- experimental study

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