A Modified Eyring Equation for Modeling Yield and Flow Stresses of Metals at Strain Rates Ranging from 10−5to 5 × 104 s−1

Othman, Ramzi

doi:10.1155/2015/539625

Cited by 7 publications

(4 citation statements)

References 35 publications

(38 reference statements)

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“…The modified-Eyring model is developed by El-Qoubaa and Othman [18][19][20] based on the original work of Eyring [23] except that they used an activation volume decreasing with an increasing strain rate. The model works well here with copper and steel over the studied strain rate range ( Figure 6).…”

Section: Modified-eyring Modelmentioning

confidence: 99%

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Constitutive Equations of Yield Stress Sensitivity to Strain Rate of Metals: A Comparative Study

Salahi¹,

Othman²

2016

Journal of Engineering

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Several constitutive equations have proposed to model the strain rate sensitivity of metals to strain rate. This paper presents a comparative of six equations reported in the open literature. All equations are used to fit the yield stress of three copper materials and one steel material at two different temperatures. A specific cost function and an optimization problem are defined. The authors recommend the use of the Cowper-Symonds equation or a modified-Eyring equation as both of them fit well the experimental data while using only three material constants. A modified flow stress Johnson-Cook equation is then proposed for metallic materials.

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Section: Modified-eyring Modelmentioning

confidence: 99%

“…El-Qoubaa and Othman [18,19] have proposed a modified-Eyring equation for polymers yield stress sensitivity to strain rates. This model was successfully applied to several metallic materials in [20].…”

Section: Introductionmentioning

confidence: 99%

Constitutive Equations of Yield Stress Sensitivity to Strain Rate of Metals: A Comparative Study

Salahi¹,

Othman²

2016

Journal of Engineering

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“…El-Qoubaa and Othman [40][41][42] pledged for the use of an apparent volume that decreases as the strain rate increases. More precisely, they proposed that the apparent activation volume is given by * = 0 exp (−√̇̇) ,…”

Section: Modified-eyring Equationmentioning

confidence: 99%

“…Dealing with amorphous polymers, Richeton et al [24] modified the cooperative model [38,39] by using an Arrhenius-type law for the horizontal and vertical shifts. Recently, El-Qoubaa and Othman [40][41][42] modified the one-process Eyring equation [33] by including an activation volume which is decreasing in terms of strain rate. The modified-Eyring equation was used to fit compression yield stress of polyetheretherketone (PEEK).…”

Section: Introductionmentioning

confidence: 99%

Modeling of the Strain Rate Dependency of Polycarbonate’s Yield Stress: Evaluation of Four Constitutive Equations

Al-Juaid

Othman

2016

Journal of Engineering

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The main focus of this paper is in evaluating four constitutive relations which model the strain rate dependency of polymers yield stress. Namely, the two-term power-law, the Ree-Eyring, the cooperative, and the newly modified-Eyring equations are used to fit tensile and compression yield stresses of polycarbonate, which are obtained from the literature. The four equations give good agreement with the experimental data. Despite using only three material constants, the modified-Eyring equation, which considers a strain rate-dependent activation volume, gives slightly worse fit than the three other equations. The two-term power-law and the cooperative equation predict a progressive increase in the strain rate sensitivity of the yield stress. Oppositely, the Ree-Eyring and the modified-Eyring equations show a clear transition between the low and high strain rate ranges. Namely, they predict a linear dependency of the yield stress in terms of the strain rate at the low strain rate range. Crossing a threshold strain rate, the yield stress sensitivity sharply increases as the strain rate increases. Hence, two different behaviors were observed though the four equations fit well the experimental data. More experimental data, mainly at the intermediate strain rate range, are needed to conclude which, of the two behaviors, is more appropriate for polymers.

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On adiabatic shear instability in impacts of micron-scale Al-6061 particles with sapphire and Al-6061 substrates

Chen

Xie

Champagne

et al. 2023

International Journal of Plasticity

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A Modified Eyring Equation for Modeling Yield and Flow Stresses of Metals at Strain Rates Ranging from 10⁻⁵to 5 × 10⁴ s⁻¹

Cited by 7 publications

References 35 publications

Constitutive Equations of Yield Stress Sensitivity to Strain Rate of Metals: A Comparative Study

Constitutive Equations of Yield Stress Sensitivity to Strain Rate of Metals: A Comparative Study

Modeling of the Strain Rate Dependency of Polycarbonate’s Yield Stress: Evaluation of Four Constitutive Equations

On adiabatic shear instability in impacts of micron-scale Al-6061 particles with sapphire and Al-6061 substrates

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