Ratcheting Study of Pressurized Straight Z2CND18.12N Austenitic Stainless Steel Pipe under Reversed Bending

Xiao Hui Chen; Xu Chen

doi:10.4028/www.scientific.net/AMR.798-799.235

Paper Titles

Effect of Ligands on the Photoluminescence Performance of Ir(III) Complexes: A Theoretical Exploration
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Study of Mass Transfer Characteristics of Membrane Extraction of p-Hydroxy Benzoic Acid Aqueous Solution Using Non-Porous Silicone Rubber Membrane
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Studies on the Preparation and DeNOx Performance of Mn_xO_y/CNTs Catalyst for Low-Temperature Selective Catalytic Reduction
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Ratcheting Study of Pressurized Straight Z2CND18.12N Austenitic Stainless Steel Pipe under Reversed Bending
p.235

A Comparative Study of the Selective Oxidation of NH₃ to N₂ over Transition Metal Catalysts
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FDTD Method for Retrieving the Nonlinear-Index Coefficient Based on Self-Phase Modulation
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Applications of FRP Material in Bridge Structures
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Study on Structure Dynamic Characteristic of all Terrain Vehicle Frame
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 798-799Ratcheting Study of Pressurized Straight...

Ratcheting Study of Pressurized Straight Z2CND18.12N Austenitic Stainless Steel Pipe under Reversed Bending

Abstract:

The current paper reports the results of a numerical simulation and experiment of ratcheting behavior of pressurized straight pipe under reversed bending. A nonlinear isotropic/ kinematic (combined) hardening model is implemented into finite element program ANSYS by writing own user subroutine in FORTRAN language. The results of the numerical simulation is compared with experimental data. A reasonable agreement is noticed between the experimental and the numerical results for the ratcheting behavior of the pressurized straight pipe subjected to reversed bending.