共查询到20条相似文献,搜索用时 156 毫秒
1.
Ping Liu 《应用数学和力学(英文版)》2016,37(2):209-214
In this paper, a sufficient and necessary condition is presented for existence of a class of exact solutions to N-dimensional incompressible magnetohydrodynamic (MHD) equations. Such solutions can be explicitly expressed by appropriate formulae. Once the required matrices are chosen, solutions to the MHD equations are directly constructed. 相似文献
2.
3.
A class of nonlinear elliptic problems driven by p(x)-Laplacian with a nonsmooth locally Lipschitz potential is considered.By applying the version of the nonsmooth three-critical-point theorem,the existence of three solutions to the problems is proved. 相似文献
4.
We study the L
1
stability of multi-dimensional discrete-velocity Boltzmann equations. Under suitable smallness assumption on initial data, we show that bounded mild solutions are L
1
stable. For a stability estimate, we employ Bonys multi-dimensional analysis for total interactions over characteristic planes. 相似文献
5.
We prove that nonsmooth quasilinear parabolic systems admit a local solution in L
p
strongly differentiable with respect to time over a bounded three-dimensional polyhedral space domain. The proof rests essentially on new elliptic regularity results for polyhedral Laplace interface problems for anisotropic materials. These results are based on sharp pointwise estimates for Greens function, which are also of independent interest. To treat the nonlinear problem, we then apply a classical theorem of Sobolevskii for abstract parabolic equations and recently obtained resolvent estimates for elliptic operators and interpolation results. As applications we have in mind primarily reaction-diffusion systems. The treatment of such equations in an L
p
context seems to be new and allows (by Gauss theorem) the proper definition of the normal component of currents across the boundary. 相似文献
6.
In this paper we study the two-dimensional hydrostatic Euler equations in a periodic channel. We prove the local existence
and uniqueness of H
s
solutions under the local Rayleigh condition. This extends Brenier’s (Nonlinearity 12(3):495–512, 1999) existence result by removing an artificial condition and proving uniqueness. In addition, we prove weak–strong uniqueness,
mathematical justification of the formal derivation and stability of the hydrostatic Euler equations. These results are based
on weighted H
s
a priori estimates, which come from a new type of nonlinear cancellation between velocity and vorticity. 相似文献
7.
We consider the N-body problem in with the Newtonian potential 1/r. We prove that for every initial configuration x
i
and for every minimizing normalized central configuration x
0, there exists a collision-free parabolic solution starting from x
i
and asymptotic to x
0. This solution is a minimizer in every time interval. The proof exploits the variational structure of the problem, and it
consists in finding a convergent subsequence in a family of minimizing trajectories. The hardest part is to show that this
solution is parabolic and asymptotic to x
0. 相似文献
8.
The bioluminescence images of unstirred cultures show that lux reporter E. coli (0.10 mg biomass per ml of the broth medium) in 6.4–10 mm diameter circular containers induce center-fluid-rising toroidal
convection of ≤1 mm/min. The bioconvective torus is stable in a Teflon vessel and is deformed by 3.2–4.4 mm wavelength azimuthal
waves in polystyrene or glass vessels. 相似文献
9.
10.
Using the extension of Krasnoselskii's fixed point theorem in a cone, we prove the existence of at least one positive solution to the nonlinear nth order m-point boundary value problem with dependence on the first order derivative. The associated Green's function for the nth order m-point boundary value problem is given, and growth conditions are imposed on the nonlinear term f which ensures the existence of at least one positive solution. A simple example is presented to illustrate applications of the obtained results. 相似文献
11.
We prove the solvability in Sobolev spaces for both divergence and non-divergence form higher order parabolic and elliptic
systems in the whole space, on a half space, and on a bounded domain. The leading coefficients are assumed to be merely measurable
only in the time variable and have small mean oscillations with respect to the spatial variables in small balls or cylinders.
For the proof, we develop a set of new techniques to produce mean oscillation estimates for systems on a half space. 相似文献
12.
The surface adhesion between C. elegans and the agar plates on which they are commonly grown has yet to be accurately quantified. C. elegans is a scientifically important species of nematode whose simple structure allowed the first mapping of the complete nervous system in a multicellular organism. One of the current topics of research in the C. elegans community is the investigation of neuronal function in locomotion. Models of locomotion are used in these studies to aid in determination of the functions of specific neurons involved in locomotion. The adhesion force plays a critical role in developing these models. This paper presents the experimental determination of the adhesion energy of a representative sample of C. elegans. Adhesion energy was determined by a direct pull-off technique. In this approach, nematodes are anesthetized to prevent movement and secured to a small load cell before an agar plate is slowly brought into contact with the specimen and then removed. The maximum tensile force is then fit to a JKR-type adhesion model, which assumes that the nematode is a cylinder in order to determine the adhesion energy. Repeated adhesions are also investigated to determine the importance of drying on the measured adhesion force. From these experiments, the adhesion energy was found to be W =?4.94 ± 1.19 mJ/m2. Limited experiments on the rol-6 cuticle mutant found a lower adhesion energy W =?2.65 ± 1.16 mJ/m2 for these animals. 相似文献
13.
Hideyuki Uematsu Yuji Aoki Masataka Sugimoto Takashi Taniguchi Kiyohito Koyama 《Rheologica Acta》2008,47(2):237-242
We investigated the dynamic viscoelasticity and elongational viscosity of polypropylene (PP) containing 0.5 wt% of 1,3:2,4-bis-O-(p-methylbenzylidene)-d-sorbitol (PDTS). The PP/PDTS system exhibited a sol–gel transition (T
gel) at 193 °C. The critical exponent n was nearly equal to 2/3, in agreement with the value predicted by a percolation theory. This critical gel is due to a three-dimensional
network structure of PDTS crystals. The elongational viscosity behavior of neat PP followed the linear viscosity growth function
3η
+
(t), where η
+
(t) is the shear stress growth function in the linear viscoelastic region. The elongational viscosity of the PP/PDTS system
also followed the 3η
+
(t) above T
gel but did not follow the 3η
+
(t) and exhibited strong strain-softening behavior below T
gel. This strain softening can be attributed to breakage of the network structure of PDTS with a critical stress (σ
c) of about 104 Pa. 相似文献
14.
15.
Mechanical properties and structure of Haliotis discus hannai Ino and Hemifusus tuba conch shells: a comparative study 总被引:1,自引:0,他引:1
Jie Zhao·Chen Chen·Yan Liang·Jian Wang School of Materials Science Engineering Dalian University of Technology Dalian China 《Acta Mechanica Sinica》2010,26(1):21-25
Haliotis discus hannai Ino (abalone shell) and Hemifusus tuba conch shell have been studied for the purpose to comparatively investigate the mechanisms by which nature designs composites. It is shown that both shells are composed of aragonite and a small amount of proteins while the conch shell shows finer microstructure but lower strength than aba- lone shell. It is also shown that the fresh shells exhibits better property than those after heat-treatments. It is therefore sup- posed that the size of inorganic substance is not a dominant factor to improve strength, while both proteins in shells and the microstructure of inorganic matter also play important roles. 相似文献
16.
In this paper we investigate the bifurcations of solutions to a class of constrained optimization problems. This study was motivated by annealing problems which have been used to successfully cluster data in many different applications. Solving these problems numerically is challenging due to the size of the space being optimized over, which depends on the size and the complexity of the data being analyzed. The type of constraints and the form of the cost functions make them invariant to the action of the symmetric group on N symbols, SN, and we capitalize on this symmetry to describe the bifurcation structure. We ascertain the existence of bifurcating branches, address their stability, and compare the stability to optimality in the constrained problem. These theoretical results are used to explain numerical results obtained from an annealing problem used to cluster data.Dedicated to Professor Shui-Nee Chow on the occasion of his 60th birthday.Albert E. Parker-This research was partially supported by IGERT Grant NSF-DGE 9972824Tomá Gedeon-This research was partially supported by NSF EIA-BITS Grant 426411 相似文献
17.
B. C. Dhage 《Nonlinear Oscillations》2011,13(4):535-549
An existence result for a nonlinear nth-order ordinary random differential equation is proved under the Carathéodory condition. Two existence results for extremal
random solutions are also proved in the Carathéodory case and the discontinuous case of the nonlinearity involved in the equations.
Our investigations are carried out in the Banach space of continuous real-valued functions on closed bounded intervals of
the real line together with the application of a random version of the Leray–Schauder principle. 相似文献
18.
E. N. Brown P. J. Rae D. M. Dattelbaum B. Clausen D. W. Brown 《Experimental Mechanics》2008,48(1):119-131
Strain measurements by neutron diffraction are employed as an in situ technique to obtain insight into the deformation modes of crystalline domains in a deformed semi-crystalline polymer. The
SMARTS (Spectrometer for MAterials Research at Temperature and Stress) diffractometer has been used to measure the crystalline
lattice displacements in polytetrafluoroethylene (PTFE) for crystalline phase IV (at room temperature) in tension and compression
and for crystalline phase I (at 60°C) in compression. The chemical structure of PTFE, -(C2F4)-n, makes it ideally suited for investigation by neutron methods as it is free of hydrogen that results in limited penetration
depths and poor diffraction acquisition in most polymers. Deformation parallel to the prismatic plane normals is shown to
occur by inter-polymer chain compression with a modulus ∼10× bulk, while deformation parallel to the basal plane normal occurs
by intra-polymer chain compression with a modulus ∼1000× bulk, corresponding with theoretical values for a PTFE chain modulus.
Deformation parallel to the pyramidal plane normals is accommodated by inter-polymer chain shear. 相似文献
19.
We use three-dimensional holographic particle tracking to perform microrheological measurements of model gelled media, including
the polysaccharide pellicle of dental biofilms created by the common cariogenic oral pathogen Streptococcus mutans. Nanometer-resolution video-rate holographic tracking of embedded colloidal spheres provides accurate measurements of the
gels’ complex viscoelastic moduli, including insights into these properties’ heterogeneity. When applied to polysaccharides
of S. mutans biofilms, these techniques promise quantitative microscopic assays for candidate therapeutic agents against cariogenic dental
biofilms. 相似文献
20.
Carmela Tufano Gerrit W. M. Peters Peter Van Puyvelde Han E. H. Meijer 《Rheologica Acta》2009,48(3):343-358
The morphology evolution of two systems of partially immiscible polymers, differing in miscibility, is investigated by means of rheological experiments and optical microscopy. For each
system, two concentrations, 10% and 20%, are used. For immiscible systems, a hysteresis zone, defined by coalescence and breakup, exists where the average drop radius is not a unique function
of the shear rate. We investigate whether the findings also apply to partially immiscible polymers. The average radii at different shear rates, measured with rheology, are compared to model predictions. The hysteresis
zone, if present, is indeed affected by the polymeric system, the concentration and the flow history applied. Coalescence
evolution is measured for three different step-downs in shear rate. For both 10% systems, the resulting average radii show
a rather high scattering and do not match the theoretical predictions. For the 20% concentrations, the average experimental
drop sizes seem independent of the magnitude of the step-down, at least during a certain period of time. Thereafter, it experiences
a sudden, in the time scale of the experiments unbounded, increase in size that is more pronounced for the higher step-downs.
Deviations of the experimental data from theoretical predictions are attributed to the partially immiscible character of the
systems, yielding enhanced coalescence which, in turn, can induce confinement effects. 相似文献