Manuscript ID : JSM-2104-1689 (R1)
Visit : 165
Page: 457 - 467
10.22034/jsm.2021.1927323.1689
20.1001.1.20083505.2022.14.4.4.0
Article Type:
Original Research
Numerical and Experimental Investigation on the Effect of Geometric Discontinuity on Frequency Response of Composite Lattice Conical Structures
Subject Areas :
Mechanical Engineering
M. R Zamani
1
,
M Zaretabar
2
1 - Mechanical Engineering Department, Malek-Ashtar University of Technology, Tehran, Iran
2 - Mechanical Engineering Department, Malek-Ashtar University of Technology, Tehran, Iran
Received: 2022-07-17
Accepted : 2022-09-20
Published : 2022-12-01
Keywords:
References:
Hemmatnezhad M., Rahimi G.H., Tajik M., Pellicano F., 2015, Experimental, numerical and analytical investigation of free vibrational behavior of GFRP-stiffened composite cylindrical shells, Composite Structures 120: 509-518.
Li Z.M., Qiao P., 2014, Nonlinear vibration analysis of geodesically-stiffened laminated composite cylindrical shells in an elastic medium, Composite Structures111: 473-487.
Lopatin A.V., Morozov E.V., Shatov A.V., 2016, An analytical expression for fundamental frequency of the composite lattice cylindrical shell with clamped edges, Composite Structures141: 232-239.
Khadem S.E., Nezamoleslami R., 2017, Investigation of the free vibrations of composite anisogrid lattice conical shells formed by geodesically spiral and circumferential ribs, International Journal of Applied Mechanics 9(4): 1750047.
Zhao J., Choe K., Shuai C., Wang A., Wang Q., 2019, Free vibration analysis of functionally graded carbon nanotube reinforced composite truncated conical panels with general boundary conditions, Composites Part B: Engineering 160: 225-240.
Wang B., Tian K., Zhou C., Hao P., Zheng Y., Ma Y., Wang J., 2017, Grid-pattern optimization framework of novel hierarchical stiffened shells allowing for imperfection sensitivity, Aerospace Science and Technology 62: 114-121.
Ahmadifar A., Zamani M.R, Davar A., Heydari Beni M., 2020, Experimental and numerical buckling analysis of carbon fiber composite lattice conical structure before and after lateral impact, Journal of Applied and Computational Mechanics 6(4): 813-822.
Hemmatnezhad M., Ansari R., Darvizeh M., 2014, Prediction of vibrational behavior of composite cylindrical shells under various boundary conditions, Applied Composite Materials 17: 225-241.
Zarei M., Rahimi G.H., Hemmatnezhad M., 2020, Free vibrational characteristics of grid-stiffened truncated composite conical shells, Aerospace Science and Technology 99: 105717.
Zarei M., Rahimi G.H., Hemmatnezhad M., 2021, On the free vibrations of joined grid-stiffened composite conical-cylindrical shells, Thin-Walled Structures161: 107465.
Zaretabar M., Zamani M. R., Parsa H., Heydari Bani M., 1400, Effect of geometric discontinuity on the strength of composite lattice conical structure under axial buckling, 29th Annual International Conference of Iranian Mechanical Engineers Association and 8th Power Plant Industry Conference, Tehran.
Zamani M.R., Zaretabar M., Parsa H., Heydari Beni M., 2021, Numerical investigation of the grid geometry effect on the modal response and buckling of grid-stiffened composite conical structure, ADMT Journal 14(4): 85-89.