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Experimental Study on Variable-Amplitude Fatigue Performance of M60 High-Strength Bolts of Grid Structures with Bolted Spherical Joints

Zichun Zhou, Shujia Zhang, Honggang Lei, Bin Qiu, Liang Zhang, Guoqing Wang

2022Materials12 citationsDOIOpen Access PDF

Abstract

The high-strength bolts of grid structures with bolted spherical joints under the action of suspension cranes are at risk of severe fatigue failure. Thus, this paper studies the variable-amplitude fatigue performance of M60 high-strength bolts. The test results for eight specimens in four loading modes are obtained using an Amsler fatigue testing machine. The fatigue life is also estimated based on Miner and Corten-Dolan's theories, and the applicability of Corten-Dolan's theory is verified. The fracture induced by the variable-amplitude fatigue is microscopically analyzed using scanning electron microscopy (SEM), revealing the mechanism of the variable-amplitude fatigue failure. Our findings provide valuable experimental data supporting the fatigue life estimation of grid structures with bolted spherical joints in service.

Topics & Concepts

Structural engineeringBolted jointAmplitudeFatigue limitGoodman relationMaterials scienceEngineeringFracture mechanicsStress concentrationFinite element methodPhysicsQuantum mechanicsEngineering Structural Analysis MethodsMechanical stress and fatigue analysisFatigue and fracture mechanics
Experimental Study on Variable-Amplitude Fatigue Performance of M60 High-Strength Bolts of Grid Structures with Bolted Spherical Joints | Litcius