2024 : 12 : 19
Ali Shahrjerdi

Ali Shahrjerdi

Academic rank: Assistant Professor
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Education: PhD.
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Faculty: Technical Engineering
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Research

Title
بررسی رفتار رچتینگ لوله u شکل 316L تحت بارگذاری سیکلی خمشی و فشار ثابت
Type
JournalPaper
Keywords
Internal pressure ,Ratcheting, U shape pipe, Fatigue life, Experimental analysis,
Year
2023
Journal INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING
DOI
Researchers Ali Shahrjerdi

Abstract

The ratcheting behavior refers to the progressive accumulation of strains resulting from the cyclic loading applied to the specimens. Nowadays, much attention has been devoted to ratcheting pipelines. Hence, the ratcheting behavior of the SS316L U-shaped pipe subjected to internal pressure and cyclic bending force is investigated here. The experiments use the Servo-hydraulic device of Zwick/Roell Amsler HB 100. The local strains at the internal, external, and lateral bending points are specified using the pipe strain gauges. Then, the effect of the internal pressure, average force, and force amplitude on the ratcheting strains are examined and compared. The numerical simulation also employs the Abaqus software and the isotropic/kinematic nonlinear hardening model. It was revealed that ratcheting strain in the axial direction is more critical than in the pipe’s peripheral direction. The effect of amplitude and average pressure on thin-wall the ratcheting behavior of thinwall pipe in the axial direction during four thousand cycles are investigated. According to the observed results, increasing amplitude and average bending force while the internal pressure is constant increases the ratcheting strain. Besides, the variation of the force amplitude affects the ratcheting strain more significantly than the variation of the average force. In order to validate the obtained results, a careful comparison was made between the numerical and experimental results, and a good agreement was observed between them. Notably, the novelty of this study lies in the comprehensive analysis of the ratcheting behavior of the SS316L U-shaped pipe conducted here.