Finite element modeling to analyze creep behavior of functionally graded rotating discs with exponential reinforcement and thickness profiles

IF 2.2 3区 工程技术 Q2 MECHANICS
Rajinder Singh, Ravindra K. Saxena, Kishore Khanna, V. K. Gupta
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引用次数: 0

Abstract

The study uses FEM to analyze the creep behavior of a rotating FGM disc made of Al-SiCp. The disc thickness and SiCp reinforcement in the disc are assumed to vary according to the exponential functions of the disc radius. The yielding and creep behavior of the disc material are described by Tresca’s criterion and threshold stress-based law, respectively. The disc is assumed to rotate at constant angular velocity under free-free boundary conditions. The disc domain is discretized radially using 3-noded one-dimensional elements with quadratic shape functions. Galerkin’s approach has been used to derive the expressions for stresses and strain rates in the disc. For numerical computation of the creep results, a MATLAB code has been developed corresponding to the FE formulation. The creep results estimated using the FE approach are noticed to be in excellent agreement with those obtained using the analytical technique (continuum mechanics approach), experiment results, and commercial FE software. The study reveals that with the increase in SiCp gradient in the disc, the elastic as well as creep components of the tangential stress (near the inner radius) and the radial stress increase significantly, though the tangential stress exhibits a sizable decrease toward the outer radius. The increase in SiCp gradient results in a significant reduction in the steady-state radial and tangential strain rates in the disc, besides resulting in a relatively more uniform distribution of the strain rates, which is desirable for reducing distortion in the disc. The study indicates that the rupture time of the FGM disc could be enhanced significantly by employing a steeper SiCp gradient in the rotating disc.

Abstract Image

Abstract Image

用有限元模型分析具有指数加固和厚度轮廓的功能分级旋转盘的蠕变行为
本研究使用有限元分析了由 Al-SiCp 制成的旋转 FGM 圆盘的蠕变行为。假设圆盘厚度和圆盘中的 SiCp 增强材料根据圆盘半径的指数函数变化。圆盘材料的屈服和蠕变行为分别由 Tresca 准则和基于阈值应力的定律描述。假设圆盘在自由边界条件下以恒定角速度旋转。圆盘域采用具有二次形状函数的三编码一维元素进行径向离散。伽勒金方法用于推导圆盘中应力和应变率的表达式。为了对蠕变结果进行数值计算,开发了与 FE 公式相对应的 MATLAB 代码。使用 FE 方法估算的蠕变结果与使用分析技术(连续介质力学方法)、实验结果和商业 FE 软件获得的结果非常一致。研究表明,随着圆盘中 SiCp 梯度的增加,切向应力(靠近内半径)和径向应力的弹性和蠕变分量显著增加,但切向应力在靠近外半径时有明显下降。SiCp 梯度的增加显著降低了圆盘的稳态径向和切向应变率,此外还使应变率的分布相对更加均匀,这对于减少圆盘的变形是非常理想的。研究表明,通过在旋转圆盘中采用较陡的 SiCp 梯度,可显著提高 FGM 圆盘的破裂时间。
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来源期刊
CiteScore
4.40
自引率
10.70%
发文量
234
审稿时长
4-8 weeks
期刊介绍: Archive of Applied Mechanics serves as a platform to communicate original research of scholarly value in all branches of theoretical and applied mechanics, i.e., in solid and fluid mechanics, dynamics and vibrations. It focuses on continuum mechanics in general, structural mechanics, biomechanics, micro- and nano-mechanics as well as hydrodynamics. In particular, the following topics are emphasised: thermodynamics of materials, material modeling, multi-physics, mechanical properties of materials, homogenisation, phase transitions, fracture and damage mechanics, vibration, wave propagation experimental mechanics as well as machine learning techniques in the context of applied mechanics.
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