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Experimental Study on Mechanical Properties of High Strength Steel Bar HRB600 under High Strain RateChinese Full TextEnglish Full Text (MT)

QIAO Yan;SUN Chuanzhi;LI Aiqun;MIAO Changqing;ZHU Fangzhi;School of Civil Engineering and Architecture;School of Civil Engineering,Southeast University;School of Civil and Transportation Engineering,Beijing University of Civil Engineering and Architecture;

Abstract: The dynamic plastic constitutive model of steel rebar should be used in seismic analysis of reinforced concrete structures.As a new generation steel rebar,there is no published research on the mechanical properties of HRB600 under high strain rate.In this paper,the tensile mechanical properties of HRB600 under different strain rates were studied,and the mechanical properties of HRB600 under different strain rates were obtained.The yield strength increased by11.5%and the ultimate strength increased by 8.9%.The expression of improvement coefficient of HRB600 under high strain rate was proposed.The results show that the yield strength and ultimate strength of reinforcement improve with the increase of strain rate.Under the condition of the same strain rate,the improvement coefficient of yield strength is greater than that of ultimate strength.Compared with low strength steel,the sensitivity of strain rate of HRB600 is significantly lower than that of HPB235,HRB335 and HRB400.But there is little difference between HRB600 and HRB 500.The ultimate strain rate sensitivity of HRB600 is significantly higher than that of the low strength steel bars.On the basis of the experimental data,a dynamic plastic constitutive model of HRB600 under high strain rate is obtained.The research results can be used as the basis for seismic evaluation of HRB600 high strength reinforced concrete structure.
  • DOI:

    10.13409/j.cnki.jdpme.2019.06.004

  • Series:

    (A) Mathematics/ Physics/ Mechanics/ Astronomy; (C) Architecture/ Energy/ Traffic/ Electromechanics, etc

  • Subject:

    Architecture and Engineering

  • Classification Code:

    TU375

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