共查询到20条相似文献,搜索用时 62 毫秒
1.
2.
本文给出了弹性动力学轴对称问题基本方程的一种理论解。它由满足非齐次边界条件的准静态解和满足齐次边界条件的动态解的叠加构成。在求得准静态解后,代入基本方程,得到动态解所需满足的非齐次方程。由相应的齐次方程的特征值问题,定义了有限Hankel变换。通过这种变换及Laplace变换,求得动态解,从而得到了一个完整的理论解。文中通过对一个实例求解,表明该方法求解过程简便,实用,求解结果精确。 相似文献
3.
4.
利用微分方程的级数求解方法,分析了两端简支的有限长功能梯度圆筒的轴对称稳态热弹性问题,推导出了稳态温度场与应力场的解析解。分析中采用指数函数模型来描述FGM圆筒中材料性能在厚度方向的连续变化,同时忽略温度对材料性能的影响。另外,论文以金属钼和多铝红柱石制成的功能梯度圆筒为例,给出了稳态温度场和应力场的数值结果。 相似文献
5.
各向异性轴对称问题的弹性动力学解 总被引:2,自引:0,他引:2
呈现一种简便的解析方法,求解了各向异性轴对称有界结构的弹性动力学问题在实例中,计算了各向异性带孔圆板的动应力响应历程和分布规律 相似文献
6.
功能梯度矩形板的三维弹性分析 总被引:5,自引:0,他引:5
将功能梯度三维矩形板的位移变量按双三角级数展开,以弹性力学的平衡方程为基础.导出位移形式的平衡方程。引入状态空间方法,以三个位移分量及位移分量的一阶导数为状态变量,建立状态方程。考虑四边简支的边界条件,由状态方程得到了功能梯度三维矩形板的静力弯曲问题和自由振动问题的精确解。由给出的均匀矩形板自由振动问题的计算结果表明.与已有的理论解以及有限元方法的计算结果相吻合。假设功能梯度三维矩形板的材料常数沿板的厚度方向按照指数函数的规律变化.进一步给出了功能梯度三维矩形板的自由振动问题和静力弯曲问题的算例分析,并讨论了材料性质的梯度变化对板的动力响应和静力响应的影响。 相似文献
7.
本文研究正交各向异性功能梯度平板的二维热弹性问题.该平板在y方向无限长,x方向对边简支且温度恒定.从热弹性力学的基本方程出发,假设材料参数沿板厚方向(z方向)按同一函数规律变化,基于状态空间法,在板的上下表面作用机械荷载和热荷 载的情况下,获得了功能梯度平板二维热弹性问题的Peano-Baker级数解.通过算例,验证了Peano-Baker级数解的正确性;同时也分析了材料参数沿板厚方向不同的幂函数分布对平板响应的影响. 相似文献
8.
功能梯度矩形厚板的三维热弹性分析 总被引:6,自引:1,他引:6
直接从三维热弹性力学基本方程出发,通过引入两个位移函数和两个应力函数,导出了一个二阶的齐次状态方程和一个四阶的非齐次状态方程。分析中采用了层合近似模型,即将板划分成厚度足够小的若干薄层,从面可将每一层内的材料常数近似为常数。给出了任意厚度的四边简支横观各向同性功能梯度矩形板的热弹性分析,特别当板较薄时,与薄板理论进行了数值对比,发现两者结果吻合很好。最后研究了材料梯度指标对热弹性场的影响,结果显示梯度指标对热应力和位移都有着显著的作用:在不同的区间,梯度指标对它们有不同的影响;并且在同一区间,梯度指标对两者的影响程度也有所不同。 相似文献
9.
为了研究梯度材料在静荷载下的响应,首先推导出极坐标下轴对称问题的相容方程;再通过选取特殊的应力函数和弹性模量简化该方程,得到了弹性模量呈幂函数形式分布的梯度圆环内、外受均布压力问题的弹性解;在此基础上,引入接触条件,推得均布荷载下双层梯度圆筒和具有梯度界面层的双材料圆筒的弹性解;最后对各解析解进行了算例分析。分析结果表明:对于双层梯度圆筒,材料的梯度分布不改变其应力正负,并能使筒内应力分布更均匀,缓解应力集中;但对于具有梯度界面层的双材料圆筒,并非梯度层厚度越大应力状态越理想,也存在周向正应力虽然更加平均,最大应力值却有所提升的情况。 相似文献
10.
弹性动力学反问题的不适定性及其广义解 总被引:2,自引:1,他引:2
讨论了三类不适定性问题的广义解,通过对反问题不适定性的分析,揭示了这样的事实,即试图通过有限且带有误差的测量数据,完全和精确地反演介质参数或源参数是不现实的,能够获得的只能是实际介质或源的某种近似,或说对实际介质或源的不同模糊程度的“像”,不适定问题的广义解实质上就是这种模糊的、像。 相似文献
11.
An elastodynamic solution for plane-strain response of functionally graded thick hollow cylinders subjected to uniformly-distributed
dynamic pressures at boundary surfaces is presented. The material properties, except Poisson’s ratio, are assumed to vary
through the thickness according to a power law function. To achieve an exact solution, the dynamic radial displacement is
divided into two quasi-static and dynamic parts, and for each part, an analytical solution is derived. The quasi-static solution
is obtained by means of Euler’s equation, and the dynamic solution is derived using the method of the separation of variables
and the orthogonal expansion technique. The radial displacement and stress distributions are plotted for various functionally
graded material (FGM) hollow cylinders under different dynamic loads, and the advantages of the presented method are discussed.
The proposed analytical solution is suitable for analyzing various arrangements of hollow FGM cylinders with arbitrary thickness
and arbitrary initial conditions, which are subjected to arbitrary forms of dynamic pressures distributed uniformly on their
boundary surfaces. 相似文献
12.
An elastodynamic solution for plane-strain response of functionally graded thick hollow cylinders subjected to uniformly-distributed dynamic pressures at boundary surfaces is presented. The material properties, except Poisson’s ratio, are assumed to vary through the thickness according to a power law function. To achieve an exact solution, the dynamic radial displacement is divided into two quasi-static and dynamic parts, and for each part, an analytical solution is derived. The quasi-static solution is obtained by means of Euler’s equation, and the dynamic solution is derived using the method of the separation of variables and the orthogonal expansion technique. The radial displacement and stress distributions are plotted for various functionally graded material (FGM) hollow cylinders under different dynamic loads, and the advantages of the presented method are discussed. The proposed analytical solution is suitable for analyzing various arrangements of hollow FGM cylinders with arbitrary thickness and arbitrary initial conditions, which are subjected to arbitrary forms of dynamic pressures distributed uniformly on their boundary surfaces. 相似文献
13.
Analytical solutions to rotating functionally graded hollow and solid long cylinders are developed. Young's modulus and material density of the cylinder are assumed to vary exponentially in the radial direction, and Poisson's ratio is assumed to be constant. A unified governing equation is derived from the equilibrium equations, compatibility equation, deformation theory of elasticity and the stress-strain relationship. The governing second-order differential equation is solved in terms of a hypergeometric function for the elastic deformation of rotating functionally graded cylinders. Dependence of stresses in the cylinder on the inhomogeneous parameters, geometry and boundary conditions is examined and discussed. The proposed solution is validated by comparing the results for rotating functionally graded hollow and solid cylinders with the results for rotating homogeneous isotropic cylinders. In addition, a viscoelastic solution to the rotating viscoelastic cylinder is presented, and dependence of stresses in hollow and solid cylinders on the time parameter is examined. 相似文献
14.
Exact solutions are obtained for transient torsio- nal responses of a finitely long, functionally graded hollow cylinder under three different end conditions, i.e. free-free, free-fixed and fixed-fixed. The cylinder with its external surface fixed is subjected to a dynamic shearing stress at the internal surface. The material properties are assumed to vary in the radial direction in a power law form, while keep invariant in the axial direction. With expansion in the axial direction in terms of trigonometric series, the governing equations for the unknown functions about the radial coordinate r and time t are deduced. By applying the variable substitution technique, the superposition method and the separation of variables consecutively, series-form solutions of the equations are obtained. Natural frequencies and the transient torsional responses are finally discussed for a functionally graded finite hollow cylinder. 相似文献
15.
In the present paper, the analytical solution for a radially piezoelectric functionally graded rotating hollow shaft is presented.
The variation of material properties is assumed to follow a power law along the radial direction of the shaft. Two resulting
fully coupled differential equations in terms of the displacement and electric potential are solved directly. Numerical results
for different shaft geometries with different profiles of inhomogeneity are also graphically displayed. 相似文献
16.
An approach based on the use of discrete Fourier series is employed to analyze the stress state of orthotropic and transversely
isotropic elliptical hollow cylinders
__________
Translated from Prikladnaya Mekhanika, Vol. 43, No. 12, pp. 82–90, December 2007. 相似文献
17.
Exact analytical solutions of in-plane static problems of circular beams with uniform cross-section made of functionally graded material (FGM) are obtained. Material properties are assumed to be varying arbitrarily through the thickness. The effects of axial extension and shear deformations are considered. The differential equation system is solved exactly using the initial values method. The circumferential stress distribution on the cross-section is also obtained. The results are compared with those of rather complex approaches in the literature, such as elasticity approach, and the comparison shows an excellent agreement. Effects of power law exponent and radius-to-height ratio of the beam on circumferential stress distribution and displacements are investigated. 相似文献
18.
The three-dimensional theory of elasticity is used to study the free vibrations of an anisotropic hollow cylinder with different
boundary conditions at the ends. The relevant problem is solved by a numerical-and-analytic method. Spline approximation and
collocation is used to reduce the partial differential equations of elasticity to a boundary-value problem for a system of
ordinary differential equations of high order for the radial coordinate, which is solved using the stable discrete-orthogonalization
and incremental-search methods. The calculated results for an orthotropic inhomogeneous cylinder with boundary conditions
of several types are presented
Translated from Prikladnaya Mekhanika, Vol. 44, No. 10, pp. 74–85, October 2008. 相似文献
19.
Analytical solution for functionally graded anisotropic cantilever beam subjected to linearly distributed load 总被引:1,自引:0,他引:1
The bending problem of a functionally graded anisotropic cantilever beam subjected to a linearly distributed load is investigated.The analysis is based on the exact elasticity equations for the plane stress problem.The stress function is introduced and assumed in the form of a polynomial of the longitudinal coordinate.The expressions for stress components are then educed from the stress function by simple differentiation. The stress function is determined from the compatibility equation as well as the bound- ary conditions by a skilful deduction.The analytical solution is compared with FEM calculation,indicating a good agreement. 相似文献
20.
一种典型的半解析数值方法——线法被引入功能梯度材料的结构分析。首先推导了功能梯度材料位移形式的平衡方程和边界条件,然后阐述了线法功能梯度材料结构分析的基本步骤和数值原理。该方法的基本思想是通过有限差分将问题的控制方程半离散为定义在沿梯度方向离散节线上的常微分方程组,然后应用B样条函数Gauss配点法求解该常微分方程组得到问题的解答。为演示线法在功能梯度材料结构分析中的应用,给出了线性梯度和指数梯度功能梯度材料板分别受恒定位移、均匀拉伸载荷和弯曲载荷作用的数值算例。与相应问题解析解和其他数值方法的比较表明,线法的计算结果具有很高的精度,而且不需要任何特殊的考虑就能够有效模拟材料内部物性参数的连续变化,也无需事先选取满足特定条件的待定场函数,是一种非常适合功能梯度材料结构形式和材料特点的半解析数值方法。 相似文献