R. Duduchava
abstract:
Asymptotic model of a shell (Koiter, Sanchez-Palencia, Ciarlet etc.) is revised
based on the calculus of tangent Gunter's derivatives, developed in the recent
papers of the author with D. Mitrea and M. Mitrea. [R Duduchava,
Pseudodifferential operators with applications to some problems of mathematical
physics. (Lectures at Stuttgart University, Fall semester 2001-2002).Universität
Stuttgart, 2002, Preprint 2002-6, 1-176], [R. Duduchava, Lions's lemma,
Korn's inequalities and Lam'e operator on hypersurfaces. Oper. Theory Adv.
Appl.
210 (2010), 43-77, Springer Basel AG], [R. Duduchava, Partial
differential equations on hypersurfaces. Mem. Differential Equations Math.
Phys. 48 (2009), 19-74], [R. Duduchava, D. Mitrea, and M. Mitrea,
Differential operators and boundary value problems on hypersurfaces. Math.
Nachr. 279 (2006), No. 9-10, 996-1023]. As a result the 2-dimensional
shell equation on a middle surface $\mathcal{S}$ is written in terms of Gunter's
derivatives, unit normal vector field and the Lam\'e constant, which coincides
with the Lam\'e equation on the hypersurface $\mathcal{S}$, investigated in the
papers mentioned above.
Mathematics Subject Classification: Primary 35J57; Secondary 74J35, 58J32
Key words and phrases: Shell, Gunter's derivative, Korn's inequality, Killing's vector fields, Lax-Milgram lemma, Lam\'e equation, boundary value problems