Jinfeng Jiao scite author profile

Although traditional steel-concrete composite beam has excellent structural characteristics, it cannot meet the requirement of quick disassembly and repair in the bridge. This article presents an experimental study on friction performance of damaged steel-concrete interface in recoverable composite beam connected by high-strength frictional bolts. A total of 21 specific split tests were carried out using different concrete strength, steel strength, and surface treatment of steel. The experimental results showed that the demountable high-strength frictional bolt used in composite beam has similar performance as in the bare steel structures. The initial friction coefficient and slip stiffness were measured to be 0.34–0.47 and 52.3–116.1 kN/mm, respectively. Friction performance of damaged interface was obtained, proving that friction coefficient and slip stiffness will not decrease after the first slip damage. It is also confirmed that shot blasted steel and concrete with higher strength were more suitable in the demountable composite beam.

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Numerical simulation on anti-penetration performance of shelter plate made of steel fiber reinforced concrete with steel-concrete-steel sandwich structures

Jiao¹,

Wang²,

Yu³

2015

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Research on the Reinforcement Mechanism and Safety Monitoring of Heavy‐Duty Concrete‐Encased CFST Columns

Guo

Jiao

et al. 2020

Advances in Civil Engineering

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With the reinforcement project of a heavy-duty concrete-encased concrete-filled steel tube (CFST) column as the background, the mechanism of column reinforcement with supporting beams is proposed. The key mechanisms include the following: (1) designing the upper and lower corbel-shaped temporary support columns, (2) crack repairing the inner steel pipe using patch-shaped steel plates, and (3) replacing microwound concrete inside the steel pipe, which are all innovative and effective methods. Moreover, a system is developed for monitoring the safety during the reinforcement process and recovering the bearing capacity of the concrete-encased CFST column. The monitoring results indicate that the load conversion process of the temporary support columns lasts for 50 days, that the sum of the axial forces of the four supporting columns is 7,966.0 kN, accounting for 65% of the standard load, and that during the whole process, the structural components are safe and reliable. Finally, the construction simulation is in agreement with the field test results, which proves that the construction simulation developed based on the theory of slow time-dependent mechanics and the method of static nonlinear analysis is accurate.

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Jinfeng Jiao

Constant-amplitude fatigue behavior of M24 high-strength bolt of end-plate flange connection

Experimental and Numerical Study on Complex Multi-planar Welded Tubular Joints in Umbrella-Type Space Trusses with Long Overhangs

Experimental study on friction performance of damaged interface in steel-concrete composite beam connected by high-strength bolt

Numerical simulation on anti-penetration performance of shelter plate made of steel fiber reinforced concrete with steel-concrete-steel sandwich structures

Research on the Reinforcement Mechanism and Safety Monitoring of Heavy‐Duty Concrete‐Encased CFST Columns

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