Numerical and experimental analysis of buckling and post buckling in cylindrical shells with circular cutout
Author(s):
Article Type:
Research/Original Article (بدون رتبه معتبر)
Abstract:
Buckling in cylindrical shells has been a major issue for researchers for more than a century. Cylindrical shells are often used in the production of aircrafts, racks, boilers, pipelines, cars, and some submarine structures. These structures may experience axial compression loads in their longevity and yield to buckling. Furthermore, these structures usually have disruptions, such as cutouts, which may have adverse effects on their stability. In the present paper using finite element method, the buckling of cylinders with circular cutout of AA508 aluminum alloy under loading is investigated. The effect of some geometric parameters such as cutout position and cutout size on the critical load of buckling of these shells was studied. According to the results, with increase in the diameter of cutout the critical load of buckling sharply decreases. The results of the numerical analysis are verified by a series of experimental tests.
Keywords:
Language:
English
Published:
Computations and Simulations in Mechanical Science, Volume:1 Issue: 2, Summer and Autumn 2018
Pages:
24 to 28
https://www.magiran.com/p2348038
سامانه نویسندگان
مقالات دیگری از این نویسنده (گان)
-
Evaluation of Critical Buckling Load in FG Plate using Analytical and Finite Elements Methods
Hossein Ahmadi Rashid, AMIR GHIASVAND *, Maziar Mahdipour Jalilian, Mahdi Kazemi
International Journal of Advanced Design and Manufacturing Technology, Sep 2022 -
Investigation on the effect of the honeycomb core orientation to lateral plates on the energy absorption capacity of the sandwich panel used in the elevator hole
*, Hossein Ahmadi Rashid, Soran Hasanifard
Journal of Mechanical Engineering and Vibration,