Isotropic Functionally(各向同性功能)研究综述
Isotropic Functionally 各向同性功能 - The present study bestows the analytical investigation of incremental mechanical stresses (compressive stress, shear, and tensile) and electrical displacements (vertical and horizontal components) induced due to a moving line load on an irregular transversely isotropic functionally graded viscoelastic-piezoelectric material (FGVPM) substrate. [1] This paper is concerned with the numerical evaluation of the stress intensity factors (SIFs) of 2-D isotropic functionally graded materials (FGMs) by the natural element method (more exactly, Petrov-Galerkin NEM). [2] Two versions of diffusion–convection–reaction equations for anisotropic functionally graded materials (FGMs) are discussed again in this paper to find their numerical solutions by using the boundary element method (BEM). [3] This paper implements three dimensional meshless local Petrov–Galerkin method in the linear elastic fracture mechanics analyses of isotropic functionally graded and homogeneous materials under different thermo-mechanical loads. [4] In this paper, coupled axial and torsional large deformation of an incompressible isotropic functionally graded nonlinearly elastic solid cylinder is investigated. [5] This study presents the dynamic response analyze of a simply supported and isotropic functionally graded (FG) double curved panel under mechanical loading. [6] The reduction in the stress concentration factor (SCF) around a circular hole in an infinite panel by adding an isotropic functionally graded incompressible material (FGIM) lining is analytically investigated. [7] In this paper, the complex variable method is applied to study three-dimensional problems of transversely isotropic functionally graded circular plates subjected to concentrated edge forces and couples. [8] The main objective of this work is to present a numerical modeling of crack propagation path in isotropic functionally graded materials (FGMs) under mixed-mode loadings. [9]本研究对由不规则横向各向同性功能梯度粘弹性压电材料 (FGVPM) 上的移动线载荷引起的增量机械应力(压缩应力、剪切和拉伸)和电位移(垂直和水平分量)进行分析研究基质。 [1] 本文关注通过自然元法(更准确地说,Petrov-Galerkin NEM)对二维各向同性功能梯度材料 (FGM) 的应力强度因子 (SIF) 进行数值评估。 [2] 本文再次讨论了各向异性功能梯度材料 (FGM) 的两个版本的扩散-对流-反应方程,以使用边界元法 (BEM) 找到它们的数值解。 [3] 本文在不同热机械载荷下各向同性功能梯度和均质材料的线弹性断裂力学分析中实施三维无网格局部 Petrov-Galerkin 方法。 [4] 本文研究了不可压缩各向同性功能梯度非线性弹性实体圆柱的耦合轴向和扭转大变形。 [5] 本研究介绍了简支和各向同性功能梯度 (FG) 双曲面面板在机械载荷下的动态响应分析。 [6] 通过添加各向同性功能梯度不可压缩材料 (FGIM) 衬里,分析研究了无限面板圆孔周围应力集中系数 (SCF) 的降低。 [7] 本文采用复变量法研究横向各向同性功能梯度圆板在集中边缘力和耦合作用下的三维问题。 [8] 这项工作的主要目的是提出混合模式载荷下各向同性功能梯度材料 (FGM) 中裂纹扩展路径的数值模型。 [9]
Transversely Isotropic Functionally 横向各向同性泛函
The present study bestows the analytical investigation of incremental mechanical stresses (compressive stress, shear, and tensile) and electrical displacements (vertical and horizontal components) induced due to a moving line load on an irregular transversely isotropic functionally graded viscoelastic-piezoelectric material (FGVPM) substrate. [1] In this paper, the complex variable method is applied to study three-dimensional problems of transversely isotropic functionally graded circular plates subjected to concentrated edge forces and couples. [2]本研究对由不规则横向各向同性功能梯度粘弹性压电材料 (FGVPM) 上的移动线载荷引起的增量机械应力(压缩应力、剪切和拉伸)和电位移(垂直和水平分量)进行分析研究基质。 [1] 本文采用复变量法研究横向各向同性功能梯度圆板在集中边缘力和耦合作用下的三维问题。 [2]
isotropic functionally graded 各向同性功能分级
The present study bestows the analytical investigation of incremental mechanical stresses (compressive stress, shear, and tensile) and electrical displacements (vertical and horizontal components) induced due to a moving line load on an irregular transversely isotropic functionally graded viscoelastic-piezoelectric material (FGVPM) substrate. [1] This paper is concerned with the numerical evaluation of the stress intensity factors (SIFs) of 2-D isotropic functionally graded materials (FGMs) by the natural element method (more exactly, Petrov-Galerkin NEM). [2] Two versions of diffusion–convection–reaction equations for anisotropic functionally graded materials (FGMs) are discussed again in this paper to find their numerical solutions by using the boundary element method (BEM). [3] This paper implements three dimensional meshless local Petrov–Galerkin method in the linear elastic fracture mechanics analyses of isotropic functionally graded and homogeneous materials under different thermo-mechanical loads. [4] In this paper, coupled axial and torsional large deformation of an incompressible isotropic functionally graded nonlinearly elastic solid cylinder is investigated. [5] This study presents the dynamic response analyze of a simply supported and isotropic functionally graded (FG) double curved panel under mechanical loading. [6] The reduction in the stress concentration factor (SCF) around a circular hole in an infinite panel by adding an isotropic functionally graded incompressible material (FGIM) lining is analytically investigated. [7] In this paper, the complex variable method is applied to study three-dimensional problems of transversely isotropic functionally graded circular plates subjected to concentrated edge forces and couples. [8] The main objective of this work is to present a numerical modeling of crack propagation path in isotropic functionally graded materials (FGMs) under mixed-mode loadings. [9]本研究对由不规则横向各向同性功能梯度粘弹性压电材料 (FGVPM) 上的移动线载荷引起的增量机械应力(压缩应力、剪切和拉伸)和电位移(垂直和水平分量)进行分析研究基质。 [1] 本文关注通过自然元法(更准确地说,Petrov-Galerkin NEM)对二维各向同性功能梯度材料 (FGM) 的应力强度因子 (SIF) 进行数值评估。 [2] 本文再次讨论了各向异性功能梯度材料 (FGM) 的两个版本的扩散-对流-反应方程,以使用边界元法 (BEM) 找到它们的数值解。 [3] 本文在不同热机械载荷下各向同性功能梯度和均质材料的线弹性断裂力学分析中实施三维无网格局部 Petrov-Galerkin 方法。 [4] 本文研究了不可压缩各向同性功能梯度非线性弹性实体圆柱的耦合轴向和扭转大变形。 [5] 本研究介绍了简支和各向同性功能梯度 (FG) 双曲面面板在机械载荷下的动态响应分析。 [6] 通过添加各向同性功能梯度不可压缩材料 (FGIM) 衬里,分析研究了无限面板圆孔周围应力集中系数 (SCF) 的降低。 [7] 本文采用复变量法研究横向各向同性功能梯度圆板在集中边缘力和耦合作用下的三维问题。 [8] 这项工作的主要目的是提出混合模式载荷下各向同性功能梯度材料 (FGM) 中裂纹扩展路径的数值模型。 [9]