The influence from steel bar on concrete fracture behavior under different impact velocities

Song, Min; Wang, Zhiyong; Zhang, Jie; Ma, Gang; Wang, Zhihua

doi:10.1002/suco.202000696

Cited by 5 publications

(4 citation statements)

References 44 publications

(90 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…• Local damage that occur in first impact results in weakening of propagation of vibration under second impact. (Song et al, 2021) • Three-point bending beams of plain concrete and reinforced concrete are tested using a drop hammer test.…”

Section: Discussionmentioning

confidence: 99%

A comprehensive experimental review of strain rate, size effect, creep and confinement in concrete: Part III

Ahmed

Park

Voyiadjis

2023

International Journal of Damage Mechanics

View full text Add to dashboard Cite

A comprehensive review of destructive testing techniques to understand concrete behavior is presented in this work. The main objective of this article is to summarize the literature from the last three decades related to the following topics: 1) the size effect in plain and reinforced concrete, 2) the crack estimation and propagation in concrete under various loading conditions, 3) the determination of material properties of concrete using triaxial testing techniques, 4) the behavior of concrete under creep and early age shrinkage which eventually affect the properties of concrete and lastly 5) the strain rate effect in concrete using various experimental techniques such as Split Hopkinson pressure bar, impact loading, drop hammer and the literature related to cyclic loading on concrete. The scope of the presented work is limited to destructive testing related to the topics defined above. To completely understand the behavior of material, at least three aspects must be required: the material’s theoretical basics, experimental validation, and numerical implementation. The authors presented the review articles related to theoretical basics and numerical implementation in parts I and II of this article. The presented work is part III, which is related to experimental work. In the upcoming section, the research related to specific topics is presented, and a summary is provided at the end of each section. Finally, the future works and the research directions are shown in the conclusion section.

show abstract

Section: Discussionmentioning

confidence: 99%

A comprehensive experimental review of strain rate, size effect, creep and confinement in concrete: Part III

Ahmed

Park

Voyiadjis

2023

International Journal of Damage Mechanics

View full text Add to dashboard Cite

show abstract

“…This approach has been extensively applied in various fracture models to investigate the role of reinforcement in concrete beam fracture behavior. Alrayes et al [34] introduced a numerical modeling technique that employs the scaled boundary finite element model (SBFEM) for the simulation of crack propagation, which is applied to simulate the three-point bending tests of SEN concrete beams under various loading scenarios, confirming the efficacy of the proposed model. Additionally, alongside the three-point bending test, the four-point bending test is highly regarded for the study of beam bending failure behavior due to its ability to maintain a constant bending moment at specific locations on the beam, thereby achieving zero shear.…”

Section: Introductionmentioning

confidence: 89%

“…In previous studies, Song [34] conducted impact three-point bending tests on a plain concrete beam and a lightly reinforced concrete beam. This study assessed the influence of steel reinforcement on the crack velocity, fracture toughness, and fracture energy.…”

Section: Introductionmentioning

confidence: 99%

Comparison of Fracture Behavior in Single-Edge Notched Beams Reinforced with Steel Bars or CFRP Bars

Wang,

Yang,

Song

et al. 2024

Materials

Self Cite

View full text Add to dashboard Cite

To explore and compare the failure modes, deformation behaviors, and load-bearing capacities of single-edge notched (SEN) beams strengthened with carbon fiber-reinforced polymer (CFRP) and steel bars, static and dynamic three-point bending tests on both types of concrete beams have been carried out in this study. During the static tests, the electro-hydraulic servo machine served as a loading device to apply pressure to CFRP beams and reinforced concrete (RC) beams. During the impact experiments, different impact velocities were imparted by adjusting the drop hammer’s height. Thus, information regarding crack propagation, energy absorption, and deformation was obtained. The results from the static tests showed that the RC beams predominantly experienced shear failure. In contrast, the CFRP beams primarily exhibited bending–shear failure, attributed to the relatively weaker bond strength between the bars and the concrete. Impact tests were conducted at three different velocities in this study. As the impact velocity increased, both types of concrete beams transitioned from bending failure to bending–shear failure. At the lowest velocity, the difference in energy absorption between beams reinforced with different materials was insignificant during the bending process. However, at the highest velocity, CFRP beams absorbed less energy than RC beams. The study of structures’ impact failure modes and their mechanical characteristics offers valuable references for the anti-collision design and protection of structures.

show abstract

“…At present, the research on ship-bridge collision mainly focuses on the impact resistance mechanical properties of reinforced concrete(RC) structures. For example, the influence of impact mass, impact velocity, cumulative impact times and other factors on the impact force, structural deformation and failure mode of concrete structures (Song et al, 2021;Fu et al, 2020;Xu and Zeng, 2015). At the same time, some scholars have carried out research on the impact resistance mechanical properties of stainless steel reinforced concrete (SRC) structures, , and Zhang and Xu.…”

Section: Introductionmentioning

confidence: 99%

Mechanical Property Test and Damage Evaluation Analysis of Steel Fiber Stainless-Steel Reinforced Concrete Beams (SFSRCBs) under Impact Load

Zhou

Wang

Deng³

et al. 2022

Lat. Am. j. solids struct.

View full text Add to dashboard Cite

In this paper, the ultra-high drop hammer impact test system is adopted for the vertical impact experiment on six SFSRCBs with steel fiber volume fraction of 2.0% and build the relevant numerical model. The research variables mainly include impact energy, impact mass and cumulative impact mode. The results show that, under a single equal energy impact, with the increase of the impact speed, the crack distribution of the specimen gradually tends to the mid-span local position. Compared with the impact mass, the impact speed has a greater effect on the failure mode, deformation resistance and deformation recovery ability of SFSRCBs. When the total cumulative impact energy is the same as the single impact energy, then the overall damage of the specimen caused by high-mass low-velocity cumulative impact is less significant than that caused by low-mass high-velocity cumulative impact. Combined with the finite element analysis, the calculation formula of the maximum deflection of SFSRCB under impact load is obtained. Finally, the calculation method of the impact damage evaluation factor of SFSRCBs is proposed.

show abstract

The influence from steel bar on concrete fracture behavior under different impact velocities

Cited by 5 publications

References 44 publications

A comprehensive experimental review of strain rate, size effect, creep and confinement in concrete: Part III

A comprehensive experimental review of strain rate, size effect, creep and confinement in concrete: Part III

Comparison of Fracture Behavior in Single-Edge Notched Beams Reinforced with Steel Bars or CFRP Bars

Mechanical Property Test and Damage Evaluation Analysis of Steel Fiber Stainless-Steel Reinforced Concrete Beams (SFSRCBs) under Impact Load

Contact Info

Product

Resources

About