Finite Element Analysis of Pipe Bends under External Loads-Reference-Cited by-同舟云学术

Finite Element Analysis of Pipe Bends under External Loads

Published:2017 Issue: Volume: Page:209-238
ISSN:2326-6139
Container-title:Modeling and Simulation Techniques in Structural Engineering
language:
Short-container-title:

Author:

S. Sumesh¹,Veerappan A. R.¹,Shanmugam S.¹

Affiliation:

1. National Institute of Technology, Tiruchirappalli, India

Abstract

Pipelines are being used to convey different sorts of fluids from hazardous and toxic substances to high pressure steam. Piping systems are subjected to various external loads leading to major failures with gross plastic deformation. Pipe bends are incorporated into piping systems not only to change the direction of flow but also to provide flexibility, hence they are considered to be critical components and its safe design under various loads becomes important. Earlier studies of pipe bends utilized analytical methods to determine the plastic loads. The evolution of FEM and the advancements in computational capabilities have enabled analysts to generate large number of data which is expensive and time consuming with experimental investigations. In this chapter, the major studies on pipe bends by various researchers are explored. Different studies on pipe bends namely stress analysis and the influence of geometric shape imperfections are also presented.

Publisher

IGI Global

Reference70 articles.

1. Elastic-plastic analysis of tube bending

2. American Society of Mechanical Engineers Boiler and Pressure Vessel Code. (2000). Sec. III, Nuclear Power Plant Components.

3. Bolt, S.E., & Greenstreet, W.L. (1971). Experimental determination of plastic collapse loads for pipe elbows. ASME Paper 71-PVP-37.

4. Bond, M. P. (1971). A theoretical and experimental investigation of multi mitred pipe bends subjected to various types of loading [PhD thesis]. Institute of Science & Technology, Victoria University of Manchester.

5. Stress and flexibility factors for multi-mitred pipe bends subjected to internal pressure combined with external loadings