OALibJ  Vol.2 No.7 , July 2015
Of a Fatigued Thick-Walled Cylindrical Pipe on the Brink of Yielding
Abstract: The response to stress delivered by a non-isochoric hollow cylinder is critical to its future life and integrity. The design of cylinders must emphasize durability; therefore, the knowledge of the yield stress of the constituent material is essential. The stress component of a pressurized compressible circular cylinder made of non-linearly elastic material was considered here and the yield stress was determined.
Cite this paper: Egenti, N. (2015) Of a Fatigued Thick-Walled Cylindrical Pipe on the Brink of Yielding. Open Access Library Journal, 2, 1-6. doi: 10.4236/oalib.1101345.

[1]   Ayob, A.B., Tamin, M.N. and Elbasheer, M.K. (2009) Pressure Limits of Thick-Walled Cylinders. Proceedings of the International Multi-Conference of Engineers and Computer Scientists 2009, Vol. II IMECS, 18-20 March 2009.

[2]   Wang, Z. (1995) Elastic-Plastic Fracture Analysis of a Thick-Walled Cylinder. International Journal of Pressure Vessels and Piping, 63, 165-168.

[3]   Chaaban, A. and Barake, N. (1993) Elasto-Plastic Analysis of High Pressure Vessels with Radial Cross Bores. High Pressure Technology, 263, 67-123.

[4]   Blatz, P.D. and Ko, W.L. (1962) Application of Finite Elasticity to the Deformation of Rubbery Materials. Transactions of the Society of Rheology, 6, 223-251.

[5]   Chung, D.T., Horgan, C.O. and Abeyaratne, R. (1986) The Finite Deformation of Internally Pressurized Hollow Cylinders and Spheres for a Class of Compressible Elastic Materials. International Journal of Solids and Structures, 22, 1557-1570.

[6]   Hills, J.M. and Arrigo, D.J. (1996) On Axially Symmetric Deformation of Perfectly Elastic Compressible Material. Quarterly Journal of Mechanics Applied Mathematics, 49, 19-28.

[7]   Perry, T. and Aboudi, J. (2003) Elastic-Plastic Stresses in Thick-Walled Cylinders. Journal of Pressure Vessel Technology, 125, 248.

[8]   Zhao, W., Seshadri, R. and Dubey, R.N. (2003) On Thick-Walled Cylinder under Internal Pressure. Journal of Pressure Vessel Technology, 125, 267-273.

[9]   Ejike, U.B.C.O. and Erumaka, E.N. (2006) Finite Deformation of Rotating Circular Cylinder of Blatz-Ko Material. Journal of Mathematical Sciences, 17, 63-71.

[10]   Nzerem, F.E. (2007) The Component of Stress on an Internally Pressurized Circular Cylinder of the Blatz-Ko Material. Research Journal of Applied Sciences, 2, 420-423.

[11]   Nzerem, F.E. (2007) Stresses Resulting from Fluid Flow in Pipes. M.Sc. Thesis, Federal University of Technology, Owerri.

[12]   Andri, A. (2008) Failure Criteria for Yielding.