Fatigue Life Prediction of Aluminum 6061 Alloy through Experimental and Numerical Analysis under Various Stress Ratios in Axial Tension-Tension Loading Condition

K. Krishna Bhaskar*, K. Janaki Ramaiah**, K. Meera Saheb***, V. Kalyana Manohar****, T. Lakshman Kishore*****
*-***** Department of Mechanical Engineering, University College of Engineering Kakinada (A), Andhra Pradesh, Kakinada, India.
Periodicity:October - December'2023
DOI : https://doi.org/10.26634/jme.13.4.20198

Abstract

Aluminum alloy 6061 is a versatile material widely used in aerospace, automotive, marine, and structural applications due to its mechanical strength, weldability, and corrosion resistance. Understanding and addressing fatigue is crucial for ensuring the reliable and safe performance of components made from this alloy. This study focused on predicting the fatigue life of aluminum 6061 at room temperature under axial loading conditions and evaluating the fatigue life at various stress ratios. The experimental S-N curve, derived from tension-tension fatigue loading tests, was instrumental in characterizing the material's fatigue behaviour under constant amplitude loading condition. The data obtained from these tests were then imported into ANSYS software, a widely recognized tool for finite element analysis and simulation. ANSYS was used to conduct a detailed numerical analysis to predict the fatigue life of aluminum 6061 at different stress ratios. The results from the experimental and numerical analyses exhibited good agreement, validating the accuracy of ANSYS software in predicting fatigue life at different stress ratios. This study demonstrated the effectiveness of employing a combined experimental and numerical approach for understanding fatigue behaviour in materials, particularly in terms of its applicability to different loading scenarios. The findings from this research provide valuable insights into the fatigue life of aluminum 6061 under diverse stress ratios, with the goal of enhancing material design and engineering processes. By leveraging the capabilities of ANSYS software in conjunction with experimental data, the study established a reliable methodology for predicting fatigue life, which is crucial for optimizing the performance and longevity of components subjected to cyclic loading in various industries.

Keywords

Fatigue, Aluminum 6061, ANSYS Workbench, Stress Ratio.

How to Cite this Article?

Bhaskar, K. K., Ramaiah, K. J., Saheb, K. M., Manohar, V. K., and Kishore, T. L. (2023). Fatigue Life Prediction of Aluminum 6061 Alloy through Experimental and Numerical Analysis under Various Stress Ratios in Axial Tension-Tension Loading Condition. i-manager’s Journal on Mechanical Engineering, 13(4), 22-33. https://doi.org/10.26634/jme.13.4.20198

References

[2]. Adigio, E. M., & Nangi, E. O. (2014). Computer aided design and simulation of radial fatigue test of automobile rim using ANSYS. IOSR Journal of Mechanical and Civil Engineering, 11(1), 68-73.
[15]. Kolasangiani, K., Shariati, M., Farhangdoost, K., & Varvani - Farahani, A . (2017). Numerical and experimental study on ratcheting behavior of plates with circular cutouts under cyclic axial loading. Journal of Solid Mechanics, 9(4), 811-820.
[21]. Mirehei, A., Zadeh, M. H., Jafari, A., & Omid, M. (2008). Fatigue analysis of connecting rod of universal tractor through finite element method (ANSYS). Journal of Agricultural Technology, 4(2), 21-27.
If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Single Article

North Americas,UK,
Middle East,Europe
India Rest of world
USD EUR INR USD-ROW
Pdf 35 35 200 20
Online 35 35 200 15
Pdf & Online 35 35 400 25

Options for accessing this content:
  • If you would like institutional access to this content, please recommend the title to your librarian.
    Library Recommendation Form
  • If you already have i-manager's user account: Login above and proceed to purchase the article.
  • New Users: Please register, then proceed to purchase the article.