Your search keyword '"Sivak, O. A."' showing total 8 results

1. Asymptotic approximations for solutions to quasilinear and linear parabolic problems with different perturbed boundary conditions in perforated domains.

Author

Mel'nik, T. and Sivak, O.

Subjects

*ASYMPTOTIC expansions, *APPROXIMATION theory, *QUASILINEARIZATION, *NUMERICAL solutions to parabolic differential equations, *PERTURBATION theory, *BOUNDARY value problems, *OSCILLATION theory of differential equations, *DIRICHLET problem

Abstract

We consider quasilinear and linear parabolic problems with rapidly oscillating coefficients in a domain Ω that is ε-periodically perforated by small holes of order [MediaObject not available: see fulltext.]. The holes are divided into three ε-periodical sets depending on boundary conditions. The homogeneous Dirichlet boundary conditions are imposed for holes of one set, whereas, for holes in the remaining sets, different inhomogeneous Neumann and nonlinear Robin boundary conditions involving additional perturbation parameters are imposed. For a solution to the quasilinear problem we find the leading terms of the asymptotic expansion and prove asymptotic estimates that show the influence of perturbation parameters. In the linear case, we construct and justify a complete asymptotic expansion of the solution by using the two-scale asymptotic expansion method. Bibliography: 25 titles. Illustrations: 1 figure. [ABSTRACT FROM AUTHOR]

Published

2011

2. Asymptotic analysis of a parabolic semilinear problem with nonlinear boundary multiphase interactions in a perforated domain.

Author

Mel'nik, T. and Sivak, O.

Subjects

*BOUNDARY value problems, *DIFFERENTIAL equations, *COMPLEX variables, *MATHEMATICAL physics, *MATHEMATICS

Abstract

We consider a parabolic semilinear problem with rapidly oscillating coefficients in a domain Ωε that is ε-periodically perforated by small holes of size $\mathcal {O}$(ε). The holes are divided into two ε-periodical sets depending on the boundary interaction at their surfaces, and two different nonlinear Robin boundary conditions σε( uε) + εκ m( uε) = ε g( m) ε, m = 1, 2, are imposed on the boundaries of holes. We study the asymptotics as ε → 0 and establish a convergence theorem without using extension operators. An asymptotic approximation of the solution and the corresponding error estimate are also obtained. Bibliography: 60 titles. Illustrations: 1 figure. [ABSTRACT FROM AUTHOR]

Published

2010

3. On the structure of the set of continuous solutions of functional difference equations with linearly transformed argument.

Author

Pelyukh, H. and Sivak, O.

Subjects

*DIFFERENCE equations, *MATHEMATICAL programming, *DIFFERENTIAL equations, *MATHEMATICAL analysis, *MATHEMATICAL models, *NUMERICAL analysis, *MATHEMATICAL transformations

Abstract

We investigate the structure of sets of continuous solutions of linear functional difference equations with linearly transformed argument. [ABSTRACT FROM AUTHOR]

Published

2010

4. Investigation of the structure of the set of continuous solutions of systems of linear functional difference equations.

Author

Pelyukh, H. and Sivak, O.

Subjects

*FUNCTIONAL differential equations, *CONTINUOUS groups, *MATHEMATICAL transformations, *NUMERICAL analysis, *ASYMPTOTIC expansions

Abstract

We establish conditions for the existence of continuous solutions of systems of linear functional difference equations with linearly transformed argument and develop a method for the construction of these solutions. [ABSTRACT FROM AUTHOR]

Published

2009

5. Asymptotic analysis of a boundary-value problem with nonlinear multiphase boundary interactions in a perforated domain.

Author

Mel'nyk, T. A. and Sivak, O. A.

Subjects

*BOUNDARY value problems, *ELLIPTIC differential equations, *INTEGRAL domains, *ASYMPTOTIC expansions, *ASYMPTOTIC theory of algebraic ideals, *DIFFERENTIAL equations

Abstract

We consider a boundary-value problem for the second-order elliptic differential operator with rapidly oscillating coefficients in a domain Ω ε that is ε-periodically perforated by small holes. The holes are split into two ε-periodic sets depending on the boundary interaction via their boundary surfaces. Therefore, two different nonlinear boundary conditions σ ε( u ε) + εκ m( u ε) = εg ε ( m) , m = 1 , 2 , are given on the corresponding boundaries of the small holes. The asymptotic analysis of this problem is performed as ε → 0 , namely, the convergence theorem for both the solution and the energy integral is proved without using an extension operator, asymptotic approximations for the solution and the energy integral are constructed, and the corresponding approximation error estimates are obtained. [ABSTRACT FROM AUTHOR]

Published

2009

6. Properties of an iron-copper composite-base rolled material sintered for a short time.

Author

Ocheretyanskii, V., Berent, V., Aleshina, A., and Sivak, O.

Published

1988

7. Ordering in niobium monocarbide.

Author

Khaenko, B. and Sivak, O.

Published

1985

8. Ordering in niobium carbides.

Author

Khaenko, B., Sivak, O., and Ershova, L.

Published

1992