共查询到20条相似文献,搜索用时 31 毫秒
1.
In this paper, the dynamic behavior of a Griffith crack in a piezoelectric material strip subjected to the harmonic anti-plane shear waves is investigated by use of the non-local theory for impermeable crack surface conditions. To overcome the mathematical difficulties, a one-dimensional non-local kernel is used instead of a two-dimensional one for the anti-plane dynamic problem to obtain the stress and the electric displacement near at the crack tip. By means of the Fourier transform, the problem can be solved with the help of two pairs of dual integral equations. These equations are solved using the Schmidt method. Contrary to the classical solution, it is found that no stress and electric displacement singularity is present near the crack tip. The non-local dynamic elastic solutions yield a finite hoop stress near the crack tip, thus allowing for a fracture criterion based on the maximum dynamic stress hypothesis. The finite hoop stress at the crack tip depends on the crack length, the thickness of the strip, the circular frequency of incident wave and the lattice parameter. 相似文献
2.
与界面相交的裂纹尖端的应力奇异性分析 总被引:7,自引:1,他引:7
为了确定与结合材料的界面相交的裂纹尖端附近的应力奇异性次数,提出了一种基于最小势能原理的一维特殊有限元法,以奇异点为原点半径r0的扇形奇异区域,可以简化为一维线性领域,即一条以代表结合材料的两个自由表面为端点的线段。对该一维线性领域作网格划分,采用三节点一维等参数二次单元。数值计算结果与已有理论解的比较表明,该方法具有很高的精度和效率,最后,利用文中给出的方法,得到了各向异性结合材料中与界面以任意角相交的裂纹尖端的奇异性次数随裂纹的变化规律。 相似文献
3.
本文使用有限部积分原理和两相材料空间弹性力学问题的点力基本解导出了与界面垂直相触的三维平片解纹的超奇异积分方程组; 相似文献
4.
The stress and deformation fields near the tip of an anti-plane crack growing quasi-statically along an interface of elastic
perfectly plastic materials are given in this paper. A family of solutions for the growing crack fields is found covering
all admissible crack line shear stress ratios.
The project supported by the National Natural Science Foundation of China 相似文献
5.
采用复变函数论,对反平面条件下的动态裂纹扩展问题进行研究。通过自相似函数的方法可以获得解析解的一般表达式。应用该法可以很容易地将所讨论的问题转化为Riemann—Hilbert问题,并可以相当简单地得到问题的闭合解。文中分别对裂纹面受均布载荷、坐标原点受集中增加载荷、坐标原点受瞬时冲击载荷以及裂纹面受运动集中载荷Px/t作用下的动态裂纹扩展问题进行求解,得到了裂纹扩展位移、裂纹尖端的应力和动态应力强度因子的解析解。应用该解并通过叠加原理,就可以求得任意复杂问题的解。 相似文献
6.
In this paper, the scattering of harmonic anti-plane shear waves by a finite crack in infinitely long strip is studied using
the non-local theory. The Fourier transform is applied and a mixed boundary value problem is formulated. Then a set of dual
integral equations is solved using the Schmidt method instead of the first or the second integral equation method. A one-dimensional
non-local kernel is used instead of a two-dimensional one for the anti-plane dynamic problem to obtain the stress occurring
at the crack tips. Contraty to the classical elasticity solution, it is found that no stress singularity is present at the
crack tip. The non-local dynamic elastic solutions yield a finite hoop stress at the crack tip, thus allowing for a fracture
criterion based on the maximum dynamic stress hypothesis. The finite hoop stress at the crack tip depends on the crack length,
the width of the strip and the lattice parameter.
Supported by the Post Doctoral Science Foundation of Heilongjiang Province, the Natural Science Foundation of Heilongjiang
Province and the National Foundation for Excellent Young Investigators. 相似文献
7.
Although a lot of interface crack problems were previously treated, few solutions are available under arbitrary crack lengths and material combinations. In this paper the stress intensity factors of an edge interface crack in a bonded strip are considered under tension with varying the crack length and material combinations systematically. Then, the limiting solutions are provided for an edge interface crack in a bonded semi-infinite plate under arbitrary material combinations. In order to calculate the stress intensity factors accurately, exact solutions in an infinite bonded plate are also considered to produce proportional singular stress fields in the analysis of FEM by superposing specific tensile and shear stresses at infinity. The details of this new numerical solution are described with clarifying the effect of the element size on the stress intensity factor. It is found that for the edge interface crack the normalized stress intensity factors are not always finite depending upon Dunders’ parameters. This behavior can be explained from the condition of the singular stress at the end of bonded strip. Convenient formulas are also given by fitting the computed results. 相似文献
8.
On anti-plane shear behavior of a Griffith permeable crack in piezoelectric materials by use of the non-local theory 总被引:3,自引:0,他引:3
In this paper, the non-local theory of elasticity is applied to obtain the behavior of a Griffith crack in the piezoelectric
materials under anti-plane shear loading for permeable crack surface conditions. By means of the Fourier transform the problem
can be solved with the help of a pair of dual integral equations with the unknown variable being the jump of the displacement
across the crack surfaces. These equations are solved by the Schmidt method. Numerical examples are provided. Unlike the classical
elasticity solutions, it is found that no stress and electric displacement singularity is present at the crack tip. The non-local
elastic solutions yield a finite hoop stress at the crack tip, thus allowing for a fracture criterion based on the maximum
stress hypothesis. The finite hoop stress at the crack tip depends on the crack length and the lattice parameter of the materials,
respectively.
The project supported by the National Natural Science Foundation of China (50232030 and 10172030) 相似文献
9.
L.M. Brock 《Journal of the mechanics and physics of solids》1977,25(1):1-10
Under static pre-stress, small voids located between constituent layers in a laminated composite may extend both as interface flaws and as cracks into the layers themselves. Thus, the material may fail due to the combined effects of delamination (separation) and fracture of the layers. As a first step in understanding this complex process, while minimizing mathematical difficulties, a simple idealized example of such a process is examined. A cruciform brittle crack-flaw combination is assumed to initiate at the interface of perfectly-bonded half-spaces under a uniform anti-plane shear field and to extend with constant speeds. When the crack and wave speeds satisfy a simple relation, straight-forward solutions to the resulting wave propagation problem can be obtained and several crackflaw interaction effects noted. In particular, the stress intensities and energy flux rates at the crack and flaw edges are studied. 相似文献
10.
In this paper, the dynamic behavior of two collinear cracks in the anisotropic elasticity material plane subjected to the
harmonic anti-plane shear waves is investigated by use of the nonlocal theory. To overcome the mathematical difficulties,
a one-dimensional nonlocal kernel is used instead of a two-dimensional one for the anti-plane dynamic problem to obtain the
stress field near the crack tips. By use of the Fourier transform, the problem can be solved with the help of a pair of triple
integral equations, in which the unknown variable is the displacement on the crack surfaces. To solve the triple integral
equations, the displacement on the crack surfaces is expanded in a series of Jacobi polynomials. Unlike the classical elasticity
solutions, it is found that no stress singularity is present near crack tips. The nonlocal elasticity solutions yield a finite
hoop stress at the crack tips, thus allowing us to using the maximum stress as a fracture criterion. The magnitude of the
finite stress field not only depends on the crack length but also on the frequency of the incident waves and the lattice parameter
of the materials. 相似文献
11.
Analysis of mode Ⅲ crack perpendicular to the interface between two dissimilar strips 总被引:1,自引:1,他引:1
M. S. Matbuly 《Acta Mechanica Sinica》2008,24(4):433-438
The present work is concerned with the problem of mode Ⅲ crack perpendicular to the interface of a bi-strip composite. One of these strips is made of a functionally graded material and the other of an isotropic material, which contains an edge crack perpendicular to and terminating at the interface. Fourier transforms and asymptotic analysis are employed to reduce the problem to a singular integral equation which is numerically solved using Gauss-Chebyshev quadrature formulae. Furthermore, a parametric study is carried out to investigate the effects of elastic and geometric characteristics of the composite on the values of stress intensity factor. 相似文献
12.
In this paper, the problem of a crack perpendicular to and terminating at an interface in bimaterial structure with finite boundaries is investigated. The dislocation simulation method and boundary collocation approach are used to derive and solve the basic equations. Two kinds of loading form are considered when the crack lies in a softer or a stiffer material, one is an ideal loading and the other one fits to the practical experiment loading. Complete solutions of the stress field including the T stress are obtained as well as the stress intensity factors. Influences of T stress on the stress field ahead of the crack tip are studied. Finite boundary effects on the stress intensity factors are emphasized. Comparisons with the problem presented by Chen et al. (Int. J. Solids and Structure, 2003, 40, 2731–2755) are discussed also.The project supported by the National Natural Science Foundation of China (10202023 and 10272103), and the Key Project of CAS (KJCX2-SW-L2). 相似文献
13.
Singularities in 2D anisotropic potential problems in multi-material corners: Real variable approach
《International Journal of Solids and Structures》2003,40(20):5197-5218
An analysis of singular solutions at corners consisting of several different homogeneous wedges is presented for anisotropic potential theory in plane. The concept of transfer matrix is applied for a singularity analysis first of single wedge problems and then of multi-material corner problems. Explicit forms of eigenequations for evaluation of singularity exponent in the case of multi-material corners are derived both for all combinations of homogeneous Neumann and Dirichlet boundary conditions at faces of open corners and for multi-material planes with singular interior points. Perfect transmission conditions at wedge interfaces are considered in both cases. It is proved that singularity exponents are real for open anisotropic multi-material corners, and a sufficient condition for the singularity exponents to be real for anisotropic multi-material planes is deduced. A case of a complex singularity exponent for an anisotropic multi-material plane is reported, apparently for the first time in potential theory. Simple expressions of eigenequations are presented first for open bi-material corners and bi-material planes and second for a crack terminating at a bi-material interface, as examples of application of the theory developed here. Analytical solutions of these eigenequations are presented for interface cracks with any combination of homogeneous boundary conditions along the interface crack faces, and also for a special case of a crack perpendicular to a bi-material interface. A numerical study of variation of the singularity exponent as a function of inclination of a crack terminating at a bi-material interface is presented. 相似文献
14.
In this paper the anti-plane problem for an interface crack between two dissimilar magneto-electro-elastic plates subjected
to anti-plane mechanical and in-plane magneto-electrical loads is investigated. The interface crack is assumed to be either
magneto-electrically impermeable or permeable, and the position of the interface crack is arbitrary. The finite Fourier transform
method is employed to reduce the mixed boundary-value problem to triple trigonometric series equations. The dislocation density
functions and proper replacement of the variables are introduced to reduce these series equations to a standard Cauchy singular
integral equation of the first kind. The resulting integral equation together with the corresponding single-valued condition
is approximated as a system of linear algebra equations which can be easily solved. Field intensity factors and energy release
rates are determined numerically and discussed in detail. Numerical results show the effects of crack configuration and loading
combination parameters on the fracture behaviors of crack tips according to energy release rate criterion. The study of this
problem is expected to have applications to the investigation of dynamic fracture properties of magneto-electro-elastic materials
with cracks. 相似文献
15.
《International Journal of Solids and Structures》2003,40(10):2473-2486
Using the hypersingular integral equation method based on body force method, a planar crack meeting the interface in a three-dimensional dissimilar materials is analyzed. The singularity of the singular stress field around the crack front terminating at the interface is analyzed by the main-part analytical method of hypersingular integral equations. Then, the numerical method of the hypersingular integral equation for a rectangular crack subjected to normal load is proposed by the body force method, which the crack opening dislocation is approximated by the product of basic density functions and polynomials. Numerical solutions of the stress intensity factors of some examples are given. 相似文献
16.
Summary The problem of an interface edge crack between two bonded quarter-planes of dissimilar piezoelectric materials is considered
under the conditions of anti-plane shear and in-plane electric loading. The crack surfaces are assumed to be impermeable to
the electric field. An integral transform technique is employed to reduce the problem under consideration to dual integral
equations. By solving the resulting dual integral equations, the intensity factors of the stress and the electric displacement
and the energy release rate as well as the crack sliding displacement and the electric voltage across the crack surfaces are
obtained in explicit form for the case of concentrated forces and free charges at the crack surfaces and at the boundary.
The derived results can be taken as fundamental solutions which can be superposed to model more realistic problems.
Received 10 November 2000; accepted for publication 28 March 2001 相似文献
17.
18.
Zhou Zhengong Wang Biao Sun Yuguo 《Acta Mechanica Solida Sinica》2003,16(1):52-60
The dynamic behavior ofa Griffith permeable crack under harmonic anti-plane shearwaves in the piezoelectric materials is investigated by use of the non-local theory.To overcome themathematical difficulties,a one-dimensional non-local kernel is used instead of a two-dimensionalone for the anti-plane dynamic problem to obtain the stress and the electric displacement near thecrack tips.By means of Fourier transform,the problem can be solved with a pair of dual integralequations that the unknown variable is the jump of the displacement across the crack surfaces.These equations are solved with the Schmidt method and numerical examples are provided.Con-trary to the previous results,it is found that no stress and electric displacement singularities arepresent at the crack tip.The finite hoop stress and the electric displacement depend on the cracklength,the lattice parameter of the materials and the circle frequency of the incident waves.Thisenables us to employ the maximum stress hypothesis to deal with fracture problems in a naturalway. 相似文献
19.
Tanya L. Leise 《Journal of the mechanics and physics of solids》2005,53(3):639-653
We develop a general solution method for a dynamically accelerating crack under anti-plane shear conditions along the interface between two different homogeneous isotropic elastic materials. The crack is initially at rest, and after loading is applied the crack-tip speed which may accelerate up to the shear wave speed of the more compliant material. The analysis includes an exact, closed-form expression for the stress intensity factor for an arbitrary time-dependent crack-face traction, as well as expressions for computing the crack-face displacements and the stress in front of the crack. We also present some numerical examples for fixed loads and for loads moving with the crack tip, using a stress intensity factor fracture criterion, in order to examine the predicted effect of material mismatch on interfacial fracture. 相似文献
20.
利用复变函数方法研究了一维六方准晶中星形静态裂纹和运动裂纹的反平面剪切问题,得到了星形裂纹尖端处应力强度因子和动应力强度因子的解析解.当裂纹条数给定时,由此可得到直线裂纹,Griffith裂纹,共点均匀分布三裂纹,对称十字形裂纹,米字型裂纹(对称八裂纹)静力学和动力学问题的解析解.当k=4时,用数值算例讨论了声子场-相位子场耦合系数和裂纹运动速度对动应力强度因子的影响.当速度趋于0时,运动裂纹的解可以退化为静态裂纹的解. 相似文献