Effect of Strain Rate and Temperature on Tensile and Fracture Performance of AA2050-T84 Alloy

Ekabote, Nagaraj; Kodancha, Krishnaraja G.; Khan, T. M. Yunus; Badruddin, Irfan Anjum

doi:10.3390/ma15041590

Cited by 3 publications

(1 citation statement)

References 29 publications

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“…In exploring strain rate dependence (see Fig. 1 in the Supplementary Information), we found that ultimate tensile strength increased with strain rate, which is consistent with multiple sources in the literature 43 – 47 . Stress-strain curves for C14 and C15 NbCr may be found in Fig.…”

Section: Resultssupporting

confidence: 85%

A first step towards understanding thermomechanical behavior of the Nb-Cr system through interatomic potential development and molecular dynamics simulations

Heaton,

Samin

2024

Sci Rep

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Utilizing a preliminary interatomic potential, this work represents an initial exploration into the thermomechanical behavior of NbCr solid solutions. Specifically, it examines the effect of different amounts of Cr solute, for which information in the literature is limited. The employed interatomic potential was developed according to the embedded atom model (EAM), and was trained on data derived from density functional theory calculations. While the potential demonstrated reasonable accuracy and predictive power when tested, various results highlight deficiencies and encourage further development and training. Mechanical strength, heat capacities, thermal expansion coefficients, and thermal conductivities were found to decrease with Cr content. Elastic coefficients, too, were observed to be strongly dependent on Cr composition. The Pugh embrittlement criterion was not satisfied for any of the compositions and temperatures explored. Gibbs free energy calculations performed on C14, C15, and C36 NbCr$$_{2}$$ 2 allotropes predicted the C36 structure to be the most thermodynamically favorable across all investigated temperatures and it was found that C36 becomes increasingly more stable relative to the other two phases with increased pressure. The inability of this work to accurately capture the stability of the different Laves phases is most likely due to the shortcomings in the developed potential.

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Section: Resultssupporting

confidence: 85%

A first step towards understanding thermomechanical behavior of the Nb-Cr system through interatomic potential development and molecular dynamics simulations

Heaton,

Samin

2024

Sci Rep

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Numerical elastic fracture analysis of SENT test specimen subjected to non-linear loading

Deshpande,

Ekabote,

Kodancha

2023

Materials Today: Proceedings

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Effect of Strain Rate and Temperature on Tensile and Fracture Performance of AA2050-T84 Alloy

et al. 2022

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AA2050-T84 alloy is widely used in primary structures of modern transport aircraft. AA2050-T84 is established as a low-density aluminum alloy with improved Young’s modulus, less anisotropy, and temperature-dependent mechanical properties. During flights, loading rate and temperature variation in aircraft engine subsequent parts are commonly observed. The present work focuses on the effect of loading rate and temperature on tensile and fracture properties of the 50 mm thick (2-inch) AA2050-T84 alloy plate. Quasi-static strain rates of 0.01, 0.1, and 1 s−1 at −20 °C, 24 °C and 200 °C are considered. Tensile test results revealed the sensitivity of mechanical properties towards strain rate variations for considered temperatures. The key tensile properties, yield, and ultimate tensile stresses were positive strain rate dependent. However, Young’s modulus and elongation showed negative strain rate dependency. Experimental fracture toughness tests exhibited the lower Plane Strain Fracture Toughness (KIC) at −20 °C compared to 24 °C. Elastic numerical fracture analysis revealed that the crack driving and constraint parameters are positive strain rate dependent and maximum at −20 °C, if plotted and analyzed over the stress ratio. The current results concerning strain rates and temperatures will help in understanding the performance-related issues of AA2050-T84 alloy reported in aircraft applications.

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Effect of Strain Rate and Temperature on Tensile and Fracture Performance of AA2050-T84 Alloy

Cited by 3 publications

References 29 publications

A first step towards understanding thermomechanical behavior of the Nb-Cr system through interatomic potential development and molecular dynamics simulations

A first step towards understanding thermomechanical behavior of the Nb-Cr system through interatomic potential development and molecular dynamics simulations

Numerical elastic fracture analysis of SENT test specimen subjected to non-linear loading

Effect of Strain Rate and Temperature on Tensile and Fracture Performance of AA2050-T84 Alloy

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