Residual stress analysis in strain-hardened annular disks with arbitrary thickness and density under rotational autofrettage

IF 2.3 3区工程技术 Q2 MECHANICS

Acta Mechanica Pub Date : 2025-03-28 DOI:10.1007/s00707-025-04307-8

Avinash Chetry

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引用次数: 0

Abstract

Autofrettage is a cold metal forming process that aims to improve the load-bearing capacity and delay the crack initiation for thick-walled annular disks/cylinders. The current study presents numerical solution of stress distribution during the loading and unloading stage subjected to rotational autofrettage for uniform and non-uniform annular disks. The analysis assumed the plane stress condition, von Mises yield criterion, and polynomial strain hardening behavior. The stress distribution during loading and after unloading has been demonstrated for a typical SS304 uniform disk and later validated the results using a 2D FEM model in ABAQUS software. A comparative analysis has been conducted to understand the pressure-bearing capacity in second-stage loading between numerical solutions based on the von Mises yield criterion incorporating perfectly plastic hardening behavior and the proposed model. Furthermore, the stress distribution has been evaluated for non-uniform thickness and density rotating annular disks, and numerical experimentation has been conducted to underscore the importance of profile-specific strategies to induce desired beneficial compressive residual stress in the inner region of the disk.

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任意厚度和密度的应变硬化环形盘在旋转自动刃磨条件下的残余应力分析

自强化是一种旨在提高厚壁环形圆盘/圆柱体的承载能力和延迟裂纹起裂的冷成形工艺。本文研究了均匀和非均匀环形圆盘在旋转自增强作用下的加载和卸载阶段应力分布的数值解。分析采用平面应力条件、von Mises屈服准则和多项式应变硬化行为。对典型的SS304均匀盘进行了加载和卸载过程中的应力分布分析，并在ABAQUS软件中进行了二维有限元模型的验证。基于考虑完全塑性硬化行为的von Mises屈服准则的数值解与所提出的模型的第二阶段加载承载能力进行了对比分析。此外，对非均匀厚度和密度的旋转环形圆盘的应力分布进行了评估，并进行了数值实验，以强调在圆盘内部区域诱导所需的有益残余压应力的特定剖面策略的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Mechanica 物理-力学

CiteScore

4.30

自引率

14.80%

发文量

292

审稿时长

6.9 months

期刊介绍： Since 1965, the international journal Acta Mechanica has been among the leading journals in the field of theoretical and applied mechanics. In addition to the classical fields such as elasticity, plasticity, vibrations, rigid body dynamics, hydrodynamics, and gasdynamics, it also gives special attention to recently developed areas such as non-Newtonian fluid dynamics, micro/nano mechanics, smart materials and structures, and issues at the interface of mechanics and materials. The journal further publishes papers in such related fields as rheology, thermodynamics, and electromagnetic interactions with fluids and solids. In addition, articles in applied mathematics dealing with significant mechanics problems are also welcome.