上海交通大学学报(英文版) ›› 2013, Vol. 18 ›› Issue (5): 563-569.doi: 10.1007/s12204-013-1440-z

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Advanced Unified Failure Model on Uniformly Reinforced Concrete Box Section Members

LUO Hua-xun* (骆华勋), LIU Xi-la (刘西拉)   

  1. (Department of Civil Engineering, Shanghai Jiaotong University, Shanghai 200240, China)
  • 出版日期:2013-10-31 发布日期:2013-12-05
  • 通讯作者: LUO Hua-xun(骆华勋) E-mail:luohuaxun@163.com

Advanced Unified Failure Model on Uniformly Reinforced Concrete Box Section Members

LUO Hua-xun* (骆华勋), LIU Xi-la (刘西拉)   

  1. (Department of Civil Engineering, Shanghai Jiaotong University, Shanghai 200240, China)
  • Online:2013-10-31 Published:2013-12-05
  • Contact: LUO Hua-xun(骆华勋) E-mail:luohuaxun@163.com

摘要: Based on the traditional Nielsen model, a unified failure model on the uniformly reinforced concrete box section members under combined forces was introduced by Luo and Liu. One of their contributions is adjustment of the shear carrying capacity of concrete at the member failure surface. In the unified failure model, the comparison with the experimental results verified this adjustment. Nevertheless, it should be pointed out that the adjustment factor of shear carrying capacity at member failure surface for the reinforced concrete members in the unified failure model is a fixed adjustment constant for all experiment data, which is basically determined by curve fitting. However, the adjustment factor should vary with the normal stress at the member failure surface. In this paper, an advanced theoretical model is introduced, in which the adjustment factor of shear carrying capacity at failure surface is a variable related to the normal stress at failure surface. Furthermore, the advanced unified failure model on the uniformly reinforced concrete box section member can still be expressed in a simple form. Finally, the comparison with several groups of test data has verified that this advanced model is more accurate and feasible to be used in design.

关键词: reinforced concrete, adjustment factor, shear failure model, box section

Abstract: Based on the traditional Nielsen model, a unified failure model on the uniformly reinforced concrete box section members under combined forces was introduced by Luo and Liu. One of their contributions is adjustment of the shear carrying capacity of concrete at the member failure surface. In the unified failure model, the comparison with the experimental results verified this adjustment. Nevertheless, it should be pointed out that the adjustment factor of shear carrying capacity at member failure surface for the reinforced concrete members in the unified failure model is a fixed adjustment constant for all experiment data, which is basically determined by curve fitting. However, the adjustment factor should vary with the normal stress at the member failure surface. In this paper, an advanced theoretical model is introduced, in which the adjustment factor of shear carrying capacity at failure surface is a variable related to the normal stress at failure surface. Furthermore, the advanced unified failure model on the uniformly reinforced concrete box section member can still be expressed in a simple form. Finally, the comparison with several groups of test data has verified that this advanced model is more accurate and feasible to be used in design.

Key words: reinforced concrete, adjustment factor, shear failure model, box section

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