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1.
Anti-plane problem for a singularity interacting with interfacial anti-cracks (rigid lines) under uniform shear stress at
infinity in cylindrically anisotropic composites is investigated by utilizing a complex potential technique in this paper.
After obtaining the general solution for this problem, the closed solution for the interface containing one anti-crack is
presented analytically. In addition, the complex potentials for a screw dislocation dipole inside matrix are obtained by the
superimposing method. Expressions of stress singularities around the anti-crack tips, image forces and torques acting on the
dislocation or the center of dipole are given explicitly. The results indicate that the anisotropy properties of materials
may weaken the stress singularity near the anti-crack tip for the singularity being a concentrated force but enhance the one
for the singularity being a screw dislocation and change the equilibrium position of screw dislocation. The presented solutions
are valid for anisotropic, orthotropic or isotropic composites and can be reduced to some new or previously known results. 相似文献
2.
The interaction between a screw dislocation and a circular inhomogeneity in gradient elasticity is investigated. The screw
dislocation is located inside either the inhomogeneity or the matrix. By using the Fourier transform method, closed analytical
solutions are obtained when the inhomogeneity and the matrix have the same gradient coefficient. The explicit expressions
of image forces exerted on screw dislocations are derived. The motion of the appointed screw dislocation and its equilibrium
positions are discussed. The results show that the classical singularity is eliminated. Especially, for the case of a tiny
inhomogeneity, the relation of dislocations and inhomogeneities become quite different. The screw dislocation may be attracted
by the stiff inhomogeneity and repelled by the soft inhomogeneity when it tends to the interface. So there is an unstable
equilibrium position when a dislocation tends to a tiny stiff inhomogeneity and there is a stable equilibrium position when
a dislocation tends to a tiny soft inhomogeneity. 相似文献
3.
Atomistic simulations were used to investigate dislocation nucleation from Σ3 asymmetric (inclined) tilt grain boundaries under uniaxial tension applied perpendicular to the boundary. Molecular dynamics was employed based on embedded atom method potentials for Cu and Al at 10 K and 300 K. Results include the grain boundary structure and energy, along with mechanical properties and mechanisms associated with dislocation nucleation from these Σ3 boundaries. The stress and work required for dislocation nucleation were calculated along with elastic stiffness of the bicrystal configurations, exploring the change in response as a function of inclination angle. Analyses of dislocation nucleation mechanisms for asymmetric Σ3 boundaries in Cu show that dislocation nucleation is preceded by dislocation dissociation from the boundary. Then, dislocations preferentially nucleate in only one crystal on the maximum Schmid factor slip plane(s) for that crystal. However, this crystal is not simply predicted based on either the Schmid or non-Schmid factors. The synthesis of these results provides a better understanding of the dislocation nucleation process in these faceted, dissociated grain boundaries. 相似文献
4.
摘要:研究了穿透圆形夹杂界面的半无限楔形裂纹与裂纹尖端螺型位错的干涉问题。应用复变函数解析延拓技术与奇性主部分析方法,得到了位错位于半圆形夹杂内部时,半无限基体和半圆形夹杂内复势函数的解析解。然后利用保角映射技术得到了穿透圆形夹杂界面的半无限楔形裂纹尖端螺型位错产生的应力场以及作用在位错上的位错力的解析表达式。主要讨论了螺型位错对裂纹的屏蔽效应以及从楔形裂纹尖端发射位错的临界载荷条件。研究结果表明正的螺型位错可以削弱楔形裂纹尖端的应力强度因子,屏蔽裂纹的扩展,屏蔽效应随位错方位角的增大而减小。位错发射所需的无穷远临界应力随发射角的增加而增大,最可能的位错发射角度为零度,直线裂纹尖端位错的发射比楔形裂纹尖端位错的发射更容易,硬基体抑制位错的发射。 相似文献
5.
Micromechanical models aimed at simulating deformation textures and resulting plastic anisotropy need to incorporate local plastic strain heterogeneities arising from grain interactions for better predictions. The ALAMEL model [Van Houtte, P., Li, S., Seefeldt, M., Delannay, L. 2005. Deformation texture prediction: from the Taylor model to the advanced Lamel model. Int. J. Plasticity 21, 589–624], is one of the models in which the heterogeneous nature of plastic deformation in metals is introduced by accounting for the influence of a grain boundary on the cooperative deformation of adjacent grains. This is achieved by assuming that neighbouring grains undergo heterogeneous shear rates parallel to the grain boundary. The present article focuses on understanding the plastic deformation fields near the grain boundaries and the influence of grain interaction on intra-grain deformations. Crystal Plasticity Finite Element Method (CPFEM) is employed on a periodic unit cell consisting of four grains discretised into a large number of elements. A refined study of the local variation of strain rates, both along and perpendicular to the grain boundaries permits an assessment of the assumptions made in the ALAMEL model. It is shown that the ALAMEL model imbibes the nature of plastic deformation at the grain boundaries very well. However, near triple junctions, the influence of a third grain induces severe oscillations of the stress tensor, reflecting a singularity. According to CPFEM, such singularity can lead to grain subdivision by the formation of new boundaries originating at the triple junction. 相似文献
6.
L. M. Brock 《Journal of Elasticity》1981,11(2):187-195
The wave propagation problem for a largely arbitrary anti-plane displacement discontinuity imposed along a line perpendicular to the surface of a stress-free linearly viscoelastic half-plane is considered. The general Laplace transform solution is obtained and then inverted for the case of a screw dislocation moving at an arbitrary speed in a Maxwell material. It is shown that the material viscoelasticity alters the coefficient of the dislocation edge stress singularity and damps the surface displacements from the elastic values. The surface damping increases with time, distance from the dislocation path and dislocation speed, whether sub- or supersonic. 相似文献
7.
8.
分子动力学方法在研究材料力学行为中的应用进展 总被引:9,自引:2,他引:7
报道近年来分子动力学方法应用于研究位错、裂纹、晶界及其相互作用方面的进展.主要包括:裂纹尖端的位错发射,位错发射的不稳定堆垛能,晶体与裂纹’几何关系对位错发射的影响,温度对位错发射的影响以及由裂纹尖端发射的位错列与不对称倾侧晶界的相互作用.报道主要以我们的工作为主,重点讨论裂纹尖端位错发射的研究结果 相似文献
9.
《European Journal of Mechanics - A/Solids》2008,27(2):269-284
The state of stress induced in an axi-symmetric solid formed from a half-space and a bonded semi-infinite rod, by a family of ring dislocations of arbitrary Burgers vector is found. Particular care is given to the interaction between the Cauchy singularity near the dislocation core and the geometric singularity at the rod/half-space junction. 相似文献
10.
The microstructure of the nanocrystalline can be divided generally into two parts: grain and interface. When the grain size is about or less than 10 nm, the interface can be divided into grain boundary and triple junctions. The mechanical performance of nanocrystalline materials with complicated microstructures is greatly different from that of the coarse grain materials. In this paper, the nanocrystalline material is considered as a composite with three phases: the grain core, the grain boundaries, and the triple junction. The model analysis for nanocrystalline material deformation is established and the relationship between yield strength and grain size is obtained. The obtained result explains the inverse Hall–Petch relation. 相似文献
11.
提出应变能集中这一概念,对三晶体中三晶交线附近的弹性应变能的集中特性进行了计算,发现当加载方向平行于三晶交线时,三晶交线附近有弹性应变能集中,但是集中程度不是很高,当加载方向垂直于三晶交线时,根据三晶体中组元晶体的相对位置的不同和取向的不同,三晶交线附近或者没有弹性应变能集中,或者有弹性应变能集中,而且在一些情况下与平行于三晶交线方向加载的情况相比,弹性应变能的集中程度要高很多。 相似文献
12.
《International Journal of Solids and Structures》2003,40(15):3807-3826
The correspondence theorem which relates the solutions of displacement boundary value problems in classical and couple stress elasticity is formulated and applied to derive the solutions for edge and screw dislocations in an infinite medium. The effects of couple stresses on the dislocation strain energy is evaluated for both types of dislocations. It is shown that within a radius of influence of each dislocation in a metallic crystal with dislocation density of 1010 cm−2, the strain energy contribution from couple stresses (excluding the core energy) is about 15% in the case of an edge dislocation, and about 11% in the case of a screw dislocation. It is then shown that couple stresses make large effect on the total work of tractions acting on the dislocation core surface. 相似文献
13.
Heterogeneous nucleation of dislocation loops driven by high epitaxial strain describes a possible failure mode of multi-layer superlattice structures. The present paper furnishes a close form solution for the two-dimensional mechanics analysis. A three-dimensional BEM calculation facilitated by a singularity exclusion scheme is conducted for circular dislocation loops nucleated from a spherical void. The results show that the critical epitaxial strain necessary to nucleate a dislocation loop minimizes at an intermediate range of defect sizes.Sponsored by the National Natural Science Foundation of China. 相似文献
14.
This work is concerned with the cracking characteristics of mixed mode dislocations near a lip-like mode crack, stress intensity and strain energy density factor are obtained by using conformal mapping, singularity analysis and Cauchy integrals. Shielding effect generated by screw dislocation near a lip-like mode crack decreases with the increment of the distance between screw dislocation and crack tip. Larger distance between two faces of the crack leads to the shielding effect waning. The strain energy density factor of mode III decreases with the increment of the distance between dislocation and crack tip. Larger distance between two faces of lip-like mode crack also leads to the strain energy density factor waning and encourages crack initiation; the shielding effects generated by edge dislocation near the crack decrease with the increment of the distance between edge dislocation and crack tip. 相似文献
15.
Lifeng Ma Alexander M. Korsunsky 《International Journal of Solids and Structures》2008,45(22-23):5936-5945
We examine the conditions for dislocation nucleation beneath a plane strain rectangular indenter using an analytical model. Firstly, the equivalent driving force on a singularity is derived in a compact form. With this general result, the driving force is expressed in the form of complex integral formulae in terms of Muskhelishvili’s complex potentials for rectangular edged contacts. Then, adopting the Rice–Thomson model, we propose a dislocation nucleation criterion for stress contacted surface. The validity of the criterion is compared with a simple experimental result and shows good agreement. The results are discussed and conclusions are drawn. 相似文献
16.
The singular nature of the elastic fields produced by dislocations presents conceptual challenges and computational difficulties in the implementation of discrete dislocation-based models of plasticity. In the context of classical elasticity, attempts to regularize the elastic fields of discrete dislocations encounter intrinsic difficulties. On the other hand, in gradient elasticity, the issue of singularity can be removed at the outset and smooth elastic fields of dislocations are available. In this work we consider theoretical and numerical aspects of the non-singular theory of discrete dislocation loops in gradient elasticity of Helmholtz type, with interest in its applications to three dimensional dislocation dynamics (DD) simulations. The gradient solution is developed and compared to its singular and non-singular counterparts in classical elasticity using the unified framework of eigenstrain theory. The fundamental equations of curved dislocation theory are given as non-singular line integrals suitable for numerical implementation using fast one-dimensional quadrature. These include expressions for the interaction energy between two dislocation loops and the line integral form of the generalized solid angle associated with dislocations having a spread core. The single characteristic length scale of Helmholtz elasticity is determined from independent molecular statics (MS) calculations. The gradient solution is implemented numerically within our variational formulation of DD, with several examples illustrating the viability of the non-singular solution. The displacement field around a dislocation loop is shown to be smooth, and the loop self-energy non-divergent, as expected from atomic configurations of crystalline materials. The loop nucleation energy barrier and its dependence on the applied shear stress are computed and shown to be in good agreement with atomistic calculations. DD simulations of Lomer–Cottrell junctions in Al show that the strength of the junction and its configuration are easily obtained, without ad-hoc regularization of the singular fields. Numerical convergence studies related to the implementation of the non-singular theory in DD are presented. 相似文献
17.
The electroelastic interaction between a piezoelectric screw dislocation and an elliptical inhomogeneity containing a confocal blunt crack under infinite longitudinal shear and in-plane electric field is investigated. Using the sectionally holomorphic function theory, Cauchy singular integral, singularity analysis of complex functions and theory of Rieman boundary problem, the explicit series solution of stress field is obtained when the screw dislocation is located in inhomogeneity. The intervention law of the interaction between blunt crack and screw dislocation in inhomogeneity is discussed. The analytical expressions of generalized stress and strain field of inhomogeneity are calculated, while the image force, field intensity factors of blunt crack are also presented. Moreover, a new matrix expression of the energy release rate and generalized strain energy density (SED) are deduced. With the size variation of blunt crack, the results can be reduced to the case of the interaction between a piezoelectric screw dislocation and a line crack in inhomogeneity. Numerical analysis are then conducted to reveal the effects of the dislocation location, the size of inhomogeneity and blunt crack and the applied load on the image force, energy release rate and strain energy density. The influence of dislocation on energy release rate and strain energy density is also revealed. 相似文献
18.
This paper deals with the electro-elastic coupling interaction between a piezoelectric screw dislocation which is located inside the elliptical inhomogeneity and an electrically conductive confocal rigid line under remote anti-plane shear stresses and in-plane electrical loads in piezoelectric composite material. The analytical-functions of the complex potentials, stress fields and the image force acting on the piezoelectric screw dislocation are obtained based on the principle of conformal mapping, the method of series expansion, the technical of analytic continuation and the analysis of singularity of complex potentials. The rigid line and the piezoelectric material property combinations upon the image force and the equilibrium position of the dislocation are discussed in detail by the numerical computation. 相似文献
19.
D.S. Balint V.S. Deshpande A. Needleman E. Van der Giessen 《International Journal of Plasticity》2008
The grain size dependence of the flow strength of polycrystals is analyzed using plane strain, discrete dislocation plasticity. Dislocations are modeled as line singularities in a linear elastic solid and plasticity occurs through the collective motion of large numbers of dislocations. Constitutive rules are used to model lattice resistance to dislocation motion, as well as dislocation nucleation, dislocation annihilation and the interaction with obstacles. The materials analyzed consist of micron scale grains having either one or three slip systems and two types of grain arrangements: either a checker-board pattern or randomly dispersed with a specified volume fraction. Calculations are carried out for materials with either a high density of dislocation sources or a low density of dislocation sources. In all cases, the grain boundaries are taken to be impenetrable to dislocations. A Hall–Petch type relation is predicted with Hall–Petch exponents ranging from ≈0.3 to ≈1.6 depending on the number of slip systems, the grain arrangement, the dislocation source density and the range of grain sizes to which a Hall–Petch expression is fit. The grain size dependence of the flow strength is obtained even when no slip incompatibility exists between grains suggesting that slip blocking/transmission governs the Hall–Petch effect in the simulations. 相似文献
20.
《International Journal of Solids and Structures》2007,44(11-12):4206-4219
This paper attempts to investigate the problem for the interaction between a uniformly subsonic moving screw dislocation and interface cracks in two dissimilar anisotropic materials. Using Riemann–Schwarz’s symmetry principle integrated with the analysis singularity of complex functions, we present the general elastic solutions of this problem and the closed form solutions for interface containing one and two cracks. The expressions of stress intensity factors at the crack tips and image force acting on moving dislocation are derived explicitly. The results show that the stress intensity factors at the crack tips decrease with increasing velocity of dislocation, and larger dislocation velocity leads to the equilibrium position of dislocation leaving from crack tips. The presented solutions contain previously known results as the special cases. 相似文献