Some new classes of inverse coefficient problems in nonlinear mechanics
A. Kh. Khasanov Department of Mathematics and Computer Science, Izmir University, Izmir, Turkey
Аннотация:
The present study deals with the following two types of inverse problems governed by nonlinear PDEs, and related to determination of unknown properties of engineering materials based on boundary/surface measured data. The first inverse problem consists of identifying the unknown coefficient
$g(\xi^2)$ (plasticity function) in the nonlinear differential equation of torsional creep $-(g(|\nabla u|^2)u_{x_1})_{x_1}-(g(|\nabla u|^2)u_{x_2})_{x_2}= 2\phi$,
$x\in\Omega\subset\mathbb R^2$, from the torque (or torsional rigidity)
$\mathcal T(\phi)$, given experimentally. The second class of inverse problems is related to identification of the unknown coefficient
$g(\xi^2)$ in the nonlinear bending equation $Au\equiv(g(\xi^2(u))(u_{x_1x_1}+u_{x_2x_2}/2))_{x_1x_1}+(g(\xi^2(u))u_{x_1x_2})_{x_1x_2}+(g(\xi^2(u))(u_{x_2x_2}+u_{x_1x_1}/2))_{x_2x_2}=F(x)$,
$x\in\Omega\subset\mathbb R^2$. The boundary measured data here is assumed to be the deflections
$w_i[\tau_k]:=w(\lambda_i;\tau_k)$, measured during the quasi-static bending process, given by the parameter
$\tau_k$,
$k=\overline{1,K}$, at some points
$\lambda_i=(x_1^{(i)},x_2^{(i)})$,
$i=\overline{1,M}$, of a plate. Based on obtained continuity property of the direct problem solution with respect to coefficients, and compactness of the set of admissible coefficients, an existence of quasi-solutions of the considered inverse problems are proved. Some numerical results, useful from the points of view of nonlinear mechanics and computational material science, are demonstrated. Keywords: inverse coefficient problem, material properties, quasisolution method.
Ключевые слова:
inverse coefficient problem, material properties, quasisolution method.
УДК:
517.988.68 Поступила в редакцию: 15.07.2011
Язык публикации: английский