Ruili He scite author profile

Ruili He

5Publications

65Citation Statements Received

32Citation Statements Given

How they've been cited

233

How they cite others

Affiliations

Missouri University of Science and Technology

Publications

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Numerical Simulation of Prestressed Precast Concrete Bridge Deck Panels Using Damage Plasticity Model

Ren

Sneed

Yang

et al. 2014

Int J Concr Struct Mater

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This paper describes a three-dimensional approach to modeling the nonlinear behavior of partial-depth precast prestressed concrete bridge decks under increasing static loading. Six full-size panels were analyzed with this approach where the damage plasticity constitutive model was used to model concrete. Numerical results were compared and validated with the experimental data and showed reasonable agreement. The discrepancy between numerical and experimental values of load capacities was within six while the discrepancy of mid-span displacement was within 10 %. Parametric study was also conducted to show that higher accuracy could be achieved with lower values of the viscosity parameter but with an increase in the calculation effort.

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Rapid Repair of Severely Damaged RC Columns with Different Damage Conditions: An Experimental Study

Sneed

Belarbi

2013

Int J Concr Struct Mater

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Rapid and effective repair methods are desired to enable quick reopening of damaged bridges after an earthquake occurs, especially for those bridges that are critical for emergency response and other essential functions. This paper presents results of tests conducted as a proof-of-concept in the effectiveness of a proposed method using externally bonded carbon fiber reinforced polymer (CFRP) composites to rapidly repair severely damaged RC columns with different damage conditions. The experimental work included five large-scale severely damaged square RC columns with the same geometry and material properties but with different damage conditions due to different loading combinations of bending, shear, and torsion in the previous tests. Over a three-day period, each column was repaired and retested under the same loading combination as the corresponding original column. Quickset repair mortar was used to replace the removed loose concrete. Without any treatment to damaged reinforcing bars, longitudinal and transverse CFRP sheets were externally bonded to the prepared surface to restore the column strength. Measured data were analyzed to investigate the performance of the repaired columns compared to the corresponding original column responses. It was concluded that the technique can be successful for severely damaged columns with damage to the concrete and transverse reinforcement. For severely damaged columns with damaged longitudinal reinforcement, the technique was found to be successful if the damaged longitudinal reinforcement is able to provide tensile resistance, or if the damage is located at a section where longitudinal CFRP strength can be developed.

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Seismic Repair of Reinforced Concrete Bridge Columns: Review of Research Findings

Yang

Sneed

2015

J. Bridge Eng.

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Emergency repair of an RC bridge column with fractured bars using externally bonded prefabricated thin CFRP laminates and CFRP strips

Yang

Sneed

Saiidi

et al. 2015

Composite Structures

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Torsional Repair of Severely Damaged Column Using Carbon Fiber-Reinforced Polymer

He¹,

Sneed²,

Belarbi³

2014

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Ruili He

Numerical Simulation of Prestressed Precast Concrete Bridge Deck Panels Using Damage Plasticity Model

Rapid Repair of Severely Damaged RC Columns with Different Damage Conditions: An Experimental Study

Seismic Repair of Reinforced Concrete Bridge Columns: Review of Research Findings

Emergency repair of an RC bridge column with fractured bars using externally bonded prefabricated thin CFRP laminates and CFRP strips

Torsional Repair of Severely Damaged Column Using Carbon Fiber-Reinforced Polymer

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