摘要
Structures located in seismically active regions may be subjected to mainshock-aftershock(MSAS)sequences.present study selected two kinds of MSAS sequences,with one aftershock and two aftershocks,respectively.The aftershocksThe MSAS sequence with one aftershock exhibited a 10%to 30%hysteretic energy increase,whereas the MSAS sequence with two aftershocks presented a 20%to 40%hysteretic energy increase.Finally,a hysteretic energy prediction equation is proposed as a function of the vibration period,ductility value,and damping ratio to estimate hysteretic energy for mainshockaftershock sequences.
Structures located in seismically active regions may be subjected to mainshock-aftershock(MSAS)sequences.present study selected two kinds of MSAS sequences,with one aftershock and two aftershocks,respectively.The aftershocksThe MSAS sequence with one aftershock exhibited a 10%to 30%hysteretic energy increase,whereas the MSAS sequence with two aftershocks presented a 20%to 40%hysteretic energy increase.Finally,a hysteretic energy prediction equation is proposed as a function of the vibration period,ductility value,and damping ratio to estimate hysteretic energy for mainshockaftershock sequences.
基金
National Key R&D Program of China under Grant No.2017YFC1500602 and 2016YFC0701108
the National Natural Science Foundation of China under Grant No.51322801 and 51708161
the Outstanding Talents Jump Promotion Plan of Basic Research of Harbin Institute of Technology,China Postdoctoral Science Foundation under Grant No.2016M601430