Characterization of Stress Concentration in Thin Cylindrical Shells with Rectangular Cutout Under Axial Pressure
Subject Areas : Mechanical EngineeringO. Sam Daliri 1 , M. Farahani 2
1 - School of Mechanical Engineering,
College of engineering, University of Tehran, Tehran, Iran
2 - School of Mechanical Engineering, College of engineering,
University of Tehran, Tehran, Iran
Keywords:
Abstract :
[1] Ghanbari Ghazijahani, T., Jiao, H., and Holloway, D., “Structural behavior of Shells with Different Cut-outs under Compression: An Experimental Study”, Journal of Constructional Steel Research, Vol. 105, 2015, pp. 129-137.
[2] Han, H., Cheng, J., Taheri, F., and Pegg, N., “Numerical and Experimental Investigations of the Response of Aluminum Cylinders with a Cut-out Subject to Axial Compression”, Thin-Walled Structures, Vol. 44, 2006, pp. 254-270.
[3] Naghdi, A. K.. Gersting, J. M., Jr., “The Effect of a Transverse Shear Acting on the Edge of a Circular Cut-out in a Simply Supported Circular Cylindrical Shell”, Ingenieur-Archiv, Vol. 42, 1973, pp. 141-150.
[4] Aliabadi, M., Rooke, D., and Cartwright, D., “An Improved Boundary Element Formulation for Calculating Stress Intensity Factors: Application to Aerospace Structures”, The Journal of Strain Analysis for Engineering Design, Vol. 22, 1987, pp. 203-207.
[5] Theocaris, P., Petrou, L., “From the Rectangular Hole to the Ideal Crack”, International journal of Solids and Structures, Vol. 25, 1989, pp. 213-233.
[6] Folias, E., Wang, J.-J., “On the Three-Dimensional Stress Field Around a Circular Hole in a Plate of Arbitrary Thickness”, Computational Mechanics, Vol. 6, 1990, pp. 379-391.
[7] Lasko, G., Deryugin, Y., Schmauder, S., and Saraev, D., “Determination of Stresses Near Multiple Pores and Rigid Inclusion by Relaxation Elements”, Theoretical and Applied Fracture Mechanics, Vol. 34, 2000, pp. 93-100.
[8] Singh, A., Paul, U., “Finite Displacement Static Analysis of thin Plate with an Opening-a Variational Approach”, International Journal of Solids and Structures, Vol. 40, 2003, pp. 4135-4151.
[9] Paik, J. K., “Ultimate Strength of Perforated Steel Plates under Edge Shear Loading”, Thin-Walled Structures, Vol. 45, 2007, pp. 301-306.
[10] Rezaeepazhand, J., Jafari, M., “Stress Concentration in Metallic Plates with Special Shaped Cut-out”, International Journal of Mechanical Sciences, Vol. 52, 2010, pp. 96-102.
[11] Woo, J.-H., Na, W.-B., “Effect of Cut-out Orientation on Stress Concentration of Perforated Plates with Various Cut-outs and Bluntness”, International Journal of Ocean System Engineering, Vol. 1, 2011, pp. 95-101.
[12] Rezaeepazhand, J., Jafari, M., “Stress Analysis of Composite Plates with a Quasi-square Cut-out Subjected to Uniaxial Tension”, Journal of Reinforced Plastics and Composites, 2009.
[13] Pan, Z., Cheng, Y., and Liu, J., “Stress Analysis of a Finite Plate with a Rectangular Hole Subjected to Uniaxial Tension using Modified Stress Functions”, International Journal of Mechanical Sciences, Vol. 75, 2013, pp. 265-277.
[14] Rahimi, G., Alashti, R., “Plastic Limit Loads of Cylinders with a Circular Opening under Combined Axial Force and Bending Moment”, The Journal of Strain Analysis for Engineering Design, Vol. 42, 2007, pp. 55-66.
[15] Kalita, K., Shinde, D., and Haldar, S., “Analysis on Transverse Bending of Rectangular Plate”, Materials Today: Proceedings, Vol. 2, 2015, pp. 2146-2154.
[16] Thirumump, M., Kalita, K., Ramachandran, M., and Ghadai, R., “A numerical Study of SCF Convergence using ANSYS”, ARPN Journal of Engineering and Applied Sciences, Vol. 10, 2015.
[17] Kalita, K., Shinde, D., and Thomas, T. T., “Non-Dimensional Stress Analysis of an Orthotropic Plate”, Materials Today: Proceedings, Vol. 2, 2015, pp. 3527-3533.
[18] Santos, A., “Determination of Stress Concentration Factors on Flat Plates of Structural Steel”, in Journal of Physics: Conference Series, 2013, pp. 012035.
[19] Verri, F. R., Junior, J. F. S., de Faria Almeida, D. A., de Oliveira, G. B. B., de Souza Batista, V. E., Honório, H. M., et al., “Biomechanical Influence of Crown-to-Implant Ratio on Stress Distribution over Internal Hexagon Short Implant: 3-D finite Element Analysis with Statistical Test”, Journal of biomechanics,Vol. 48, 2015, pp. 138-145.
[20] Cerik, B. C., “Ultimate Strength of Locally Damaged Steel Stiffened Cylinders under Axial Compression”, Thin-Walled Structures, Vol. 95, 2015, pp. 138-151.
[21] Guoliang, J., Lin, C., and Jiamei, D., “Monte Carlo Finite Element Method of Structure Reliability Analysis”, Reliability Engineering & System Safety, Vol. 40, 1993, pp. 77-83.
[22] Narayana, A. L., Rao, K., and Kumar, R. V., “FEM Buckling Analysis of Quasi-Isotropic Symmetrically Laminated Rectangular Composite Plates with a Square/Rectangular Cut-out”, Journal of Mechanical Science and Technology, Vol. 27, 2013, pp. 1427-1435.
[23] Vartdal, B., Al-Hassani, S., and Burley, S., “A Tube with a Rectangular Cut-out. Part 1: Subject to Pure Bending”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 220, 2006, pp. 625-643.
[24] Lubarda, V. A., “On the Circumferential Shear Stress Around Circular and Elliptical Holes”, Archive of Applied Mechanics, Vol. 85, 2015, pp. 223-235.
[25] Dimopoulos, C. A., Gantes, C. J., “Numerical Methods for the Design of Cylindrical Steel Shells with Unreinforced or Reinforced Cut-outs”, Thin-Walled Structures, Vol. 96, 2015, pp. 11-28.
[26] Mazraehshahi, H. T., Zakeri, A., “Influence of Material and Geometrical Parameters on Stress Field of Composite Plates with Insert”, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2011, pp. 1573-1582.
[27] Kumar, A., Agrawal, A., Ghadai, R., and Kalita, K., “Analysis of Stress Concentration in Orthotropic Laminates”, Procedia Technology, Vol. 23, 2016, pp. 156-162.
[28] Kalita, K., Halder, S., “Static Analysis of Transversely Loaded Isotropic and Orthotropic Plates with Central Cut-out”, Journal of the Institution of Engineers (India): Series C, Vol. 95, 2014, pp. 347-358.
[29] ABAQUS 6.4 PR11 user’s manual.
[30] Fereidoon, A., Kolasangiani, K., Akbarpour, A., and Shariati, M., “Study on Buckling of Steel Cylindrical Shells with an Elliptical Cut-out under Combined Loading”, Journal of Computational & Applied Research in Mechanical Engineering (JCARME), Vol. 3, 2013, pp. 13-25.
[31] Jadvani, N., Dhiraj, V. S., Joshi, S., and Kalita, K., “Non-Dimensional Stress Analysis of Orthotropic Laminates”, Materials Focus, Vol. 6, 2017, pp. 63-71.
[32] Chaloner, K., Verdinelli, I., “Bayesian Experimental Design: A Review”, Statistical Science, 1995, pp. 273-304.
[33] Atkinson, A. C., “Optimal Experimental Design”, in International Encyclopedia of the Social & Behavioral Sciences (Second Edition), J. D. Wright, Ed., ed Oxford: Elsevier, 2015, pp. 256-262.
[34] Graciano, C., Mendes, J., “Elastic Buckling of Longitudinally Stiffened Patch Loaded Plate Girders using Factorial Design”, Journal of Constructional Steel Research, Vol. 100, 2014, pp. 229-236.
[35] Mason, R. L., Gunst, R. F., and Hess, J. L., “Statistical Design and Analysis of Experiments: with Applications to Engineering and Science”, Vol. 474, John Wiley & Sons, 2003.