References

[1]EL-TAHAN M,DAWOOD M.Fatigue behavior of a thermally-activated NiTiNb SMA-FRP Patch[J].Smart Materials and Structures,2015,25(1):15030.

[2]EL-TAHAN M,DAWOOD M,SONG G.Development of a self-stressing NiTiNb shape memory alloy(SMA)/fiber reinforced polymer(FRP)Patch[J].Smart Materials and Structures,2015,24(6):065035.

[3]ABDY I.Enhancement of fatigue life of steel structures using prestressed CFRP patches with shape memory alloys[D].Melbourne,Australia:Swinburne University of Technology,2017.

[4]LI L Z.Fatigue strengthening of central cracked steel plates using SMA/CFRP composite patches[D].Shanghai,Tongji University,2019.

[5]ZHENG B T,DAWOOD M.Fatigue strengthening of metallic structures with a thermally activated shape memory alloy fiber-reinforced polymer patch[J].Journal of Composites for Construction,2016,21(4):04016113.

[6]LI L Z,CHEN T,ZHANG N,et al.Test on fatigue repair of central inclined cracked steel plates using different adhesives and CFRP,prestressed and non-prestressed[J].Composite Structures,2019,216(3):350-359.

[7]ZHENG B T,DAWOOD M.Fatigue crack growth analysis of steel elements reinforced with shape memory alloy(SMA)/fiber reinforced polymer(FRP)composite patches[J].Composite Structures,2017,164:158-169.