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71.
Compact finite difference-Fourier spectral method for three-dimensional incompressible Navier-Stokes equations 总被引:1,自引:0,他引:1
A new compact finite difference-Fourier spectral hybrid method for solving the three dimensional incompressible Navier-Stokes
equations is developed in the present paper. The fifth-order upwind compact finite difference schemes for the nonlinear convection
terms in the physical space, and the sixth-order center compact schemes for the derivatives in spectral space are described,
respectively. The fourth-order compact schemes in a single nine-point cell for solving the Helmholtz equations satisfied by
the velocities and pressure in spectral space is derived and its preconditioned conjugate gradient iteration method is studied.
The treatment of pressure boundary conditions and the three dimensional non-reflecting outflow boundary conditions are presented.
Application to the vortex dislocation evolution in a three dimensional wake is also reported.
The project supported by the National Natural Science Foundation of China 相似文献
72.
Shi Xunqing Wang Zhiping John HL Pang Zhang Xueren Nie Jingxu 《Acta Mechanica Sinica》2002,18(3):274-287
In this study, a new unified creep constitutive relation and a modified energy-based fatigue model have been established respectively
to describe the creep flow and predict the fatigue life of Sn−Pb solders. It is found that the relation successfully elucidates
the creep mechanism related to current constitutive relations. The model can be used to describe the temperature and frequency
dependent low cycle fatigue behavior of the solder. The relation and the model are further employed in part II to develop
the numerical simulation approach for the long-term reliability assessment of the plastic ball grid array (BGA) assembly.
The project supported by the National Natural Science Foundation of China (59705008) 相似文献
73.
The elastic interaction between a screw dislocation and an elliptical inhomogeneity with interfacial cracks is studied. The screw dislocation may be located outside or inside the inhomogeneity. An efficient complex variable method for the complex multiply connected region is developed, and the general solutions to the problem are derived. As illustrative examples, solutions in explicit series form for complex potentials are presented in the case of one or two interfacial cracks. Image forces on the dislocation are calculated by using the Peach-Koehler formula. The influence of crack geometries and material properties on the image forces is evaluated and discussed. It is shown that the interfacial crack has a significant effect on the equilibrium position of the dislocation near an elliptical-arc interface. The main results indicate, when the length of the crack goes up to a critical value, the presence of the interfacial crack can change the interaction mechanism between a screw dislocation and an elliptical inclusion. The present solutions can include a number of previously known results as special cases.The project supported by the National Natural Science Foundation of China(10272009 and 10472030) and the Natural Science Foundation of Hunan Province(02JJY2014) 相似文献
74.
Multiscale dislocation dynamics analyses of laser shock peening in silicon single crystals 总被引:1,自引:0,他引:1
Although laser shock peening (LSP) has been applied in metals for property enhancement for a long time, its application on brittle materials has not been investigated so far. The present work is the first computational attempt to show that strong dislocation activity can be generated in silicon crystal by a modified LSP process. Multiscale dislocation dynamics plasticity (MDDP) simulations are conducted to predict the dislocation structure and stress/strain distribution in silicon crystal during LSP. In the modified LSP process, dislocation mobility of silicon and shock pressure is sufficiently high to generate and transport dislocation. The relationships between dislocation activities, the laser processing conditions and ablative coating material are systematically investigated. It is found that dislocation density, dislocation multiplication rate, and dislocation microstructure strongly depend on LSP processing conditions. This LSP process can also be applied in other brittle materials. 相似文献
75.
Molecular dynamics simulation of crack-tip processes in copper 总被引:1,自引:0,他引:1
The crack tip processes in copper under mode II loading have been simulated by a molecular dynamics method. The nucleation,
emission, dislocation free zone (DFZ) and pile-up of the dislocations are analyzed by using a suitable atom lattice configuration
and Finnis & Sinclair potential. The simulated results show that the dislocation emitted always exhibits a dissociated fashion.
The stress intensity factor for dislocation nucleation, DFZ and dissociated width of partial dislocations are strongly dependent
on the loading rate. The stress distributions are in agreement with the elasticity solution before the dislocation emission,
but are not in agreement after the emission. The dislocation can move at subsonic wave speed (less than the shear wave speed)
or at transonic speed (greater than the shear wave speed but less than the longitudinal wave speed), but at the longitudinal
wave speed the atom lattice breaks down.
The project supported by the National Natural Science Foundation of China 相似文献
76.
J.-X.?LiuEmail author X.-Q.?Wang 《Archive of Applied Mechanics (Ingenieur Archiv)》2004,73(8):553-560
Summary The electro-elastic interaction of a screw dislocation and a notch in a piezoelectric bi-material is analyzed. The electro-elastic fields induced by the dislocation are derived using the conformal mapping and the image-dislocation approach, where the solution for a piezoelectric bi-material without a notch is used as a base. The stress and the electric displacement intensity factors of the notch and the image force on the dislocation are given explicitly. We find that intensity factors are expressed in terms of the effective material constants, while the radial component of the image force is independent of the notch angle and the angular position of the dislocation in the polar coordinate system. Numerical results for the image force are provided for the use when one of the two media is purely elastic. They illustrate the behavior of the dislocation in the neighborhood of the notch. 相似文献
77.
78.
Wei Cai Athanasios Arsenlis Vasily V. Bulatov 《Journal of the mechanics and physics of solids》2006,54(3):561-587
We develop a non-singular, self-consistent framework for computing the stress field and the total elastic energy of a general dislocation microstructure. The expressions are self-consistent in that the driving force defined as the negative derivative of the total energy with respect to the dislocation position, is equal to the force produced by stress, through the Peach-Koehler formula. The singularity intrinsic to the classical continuum theory is removed here by spreading the Burgers vector isotropically about every point on the dislocation line using a spreading function characterized by a single parameter a, the spreading radius. A particular form of the spreading function chosen here leads to simple analytic formulations for stress produced by straight dislocation segments, segment self and interaction energies, and forces on the segments. For any value a>0, the total energy and the stress remain finite everywhere, including on the dislocation lines themselves. Furthermore, the well-known singular expressions are recovered for a=0. The value of the spreading radius a can be selected for numerical convenience, to reduce the stiffness of the dislocation equations of motion. Alternatively, a can be chosen to match the atomistic and continuum energies of dislocation configurations. 相似文献
79.
Dislocation nucleation from a stressed crystal surface is analyzed based on the Peierls-Nabarro dislocation model. The variational boundary integral approach is used to obtain the profiles of the embryonic dislocations in various three-dimensional nucleation configurations. The stress-dependent activation energies required to activate dislocations from their stable to unstable saddle point configurations are determined. Compared to previous analyses of this type of problem based on continuum elastic dislocation theory, the present analysis eliminates the uncertain core cutoff parameter by allowing for the existence of an extended dislocation core as the embryonic dislocation evolves. Moreover, atomic information can be incorporated to reveal the dependence of the nucleation process on the profile of the atomic interlayer potential as compared to continuum elastic dislocation theory in which only elastic constants and Burgers vector are relevant. Finally, the presented methodology can also be readily used to study dislocation nucleation from the surface heterogeneities such as cracks, steps, and quantum structures of electronic devices. 相似文献
80.
L. Nicola K.-S. Kim E. Van der Giessen 《Journal of the mechanics and physics of solids》2007,55(6):1120-1144
The indentation of single crystals by a periodic array of flat rigid contacts is analyzed using discrete dislocation plasticity. Plane strain analyses are carried out with the dislocations all of edge character and modeled as line singularities in a linear elastic solid. The limiting cases of frictionless and perfectly sticking contacts are considered. The effects of contact size, dislocation source density, and dislocation obstacle density and strength on the evolution of the mean indentation pressure are explored, but the main focus is on contrasting the response of crystals having dislocation sources on the surface with that of crystals having dislocation sources in the bulk. When there are only bulk sources, the mean contact pressure for sufficiently large contacts is independent of the friction condition, whereas for sufficiently small contact sizes, there is a significant dependence on the friction condition. When there are only surface dislocation sources the mean contact pressure increases much more rapidly with indentation depth than when bulk sources are present and the mean contact pressure is very sensitive to the strength of the obstacles to dislocation glide. Also, on unloading a layer of tensile residual stress develops when surface dislocation sources dominate. 相似文献