Dynamic Tensile and Compressive Behaviors of Mild Steel at Wide Range of Strain Rates

Singh, Nilamber Kumar; Cadoni, Ezio; Singha, M.K.; Gupta, Neelam

doi:10.1061/(asce)em.1943-7889.0000557

Cited by 54 publications

(32 citation statements)

References 22 publications

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“…Table 3 lists a comparison of theoretical estimates and finite element output. The Cowper Symonds constants D and p for aluminum and mild steel used in the present study were obtained from [22,23]. The results showed a reasonable correlation with finite element data with a maximum percentage error of 12.1.…”

Section: Experimental Analysismentioning

confidence: 71%

Theoretical, numerical, and experimental study of dynamic axial crushing of thin walled pentagon and cross-shape tubes

Ali

Ohioma

Kraft

et al. 2015

Thin-Walled Structures

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Section: Experimental Analysismentioning

confidence: 71%

Theoretical, numerical, and experimental study of dynamic axial crushing of thin walled pentagon and cross-shape tubes

Ali

Ohioma

Kraft

et al. 2015

Thin-Walled Structures

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“…The experimental work presented by Singh et al [5] is simulated using ANSYS 16.1 at low, medium and high strain rates (1-1500 s -1 ) under tension and compression. Here, the thermal softening parameter 1 is taken.…”

Section: Finite Element Analysis Simulation Using Ansysmentioning

confidence: 99%

“…The numerical simulation performed on 2.30 GHz processor computer in different time duration for various strain rates under tension and compression. The time scale for each process is chosen such that it covers up the flow stresses as determined by Singh et al [5]. It is observed the computation time for performing analysis decreases with increasing strain rate.…”

Section: Finite Element Analysis Simulation Using Ansysmentioning

confidence: 99%

“…There are many authors (Doner et al [1], Kaufhold et al [2], Wang et al [3], Nayyeri et al [4]) who have worked on modelling and simulation on different metallic materials. This paper is based on the numerical simulation of the experimental work presented by Singh et al [5] in which obtained material parameters of C-S model [6] and J-C model [7] are used to simulate the problem in ANSYS. It is found that the simulated results have good agreement with the analytical (predicted) results of the models and the experimental results.…”

Section: Introductionmentioning

confidence: 99%

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Modelling and simulation on behaviours of mild steel

Kumar¹,

Singh²

2019

Vib. proced.

Self Cite

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The objective of the paper is to simulate the behaviours of mild steel at different strain rates (1-1500s -1 ) under tension and compression by using finite element analysis code in ANSYS. Numerical simulation are done using Cowper-Symonds (C-S) and Johnson-Cook (J-C) material models to represent the flow stresses of mild steel. The simulated results have good agreement with the predicted results of the above material models.

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“…In case of high dynamic loadings, high strain rates in the range of 10 1 to 10 3 s −1 are generated [12][13][14][15][16]. For this reason, new information on the high strain rate behavior of modern rebars is extremely necessary [13,14].…”

Section: Introductionmentioning

confidence: 99%

Strain rate effects on reinforcing steels in tension

Cadoni

Forni

2015

EPJ Web of Conferences

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Abstract. It is unquestionable the fact that a structural system should be able to fulfil the function for which it was created, without being damaged to an extent disproportionate to the cause of damage. In addition, it is an undeniable fact that in reinforced concrete structures under severe dynamic loadings, both concrete and reinforcing bars are subjected to high strain-rates. Although the behavior of the reinforcing steel under high strain rates is of capital importance in the structural assessment under the abovementioned conditions, only the behaviour of concrete has been widely studied. Due to this lack of data on the reinforcing steel under high strain rates, an experimental program on rebar reinforcing steels under high strain rates in tension is running at the DynaMat Laboratory. In this paper a comparison of the behaviour in a wide range of strain-rates of several types of reinforcing steel in tension is presented. Three reinforcing steels, commonly proposed by the European Standards, are compared: B500A, B500B and B500C. Lastly, an evaluation of the most common constitutive laws is performed.

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Dynamic Tensile and Compressive Behaviors of Mild Steel at Wide Range of Strain Rates

Cited by 54 publications

References 22 publications

Theoretical, numerical, and experimental study of dynamic axial crushing of thin walled pentagon and cross-shape tubes

Theoretical, numerical, and experimental study of dynamic axial crushing of thin walled pentagon and cross-shape tubes

Modelling and simulation on behaviours of mild steel

Strain rate effects on reinforcing steels in tension

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