In this paper, a coupled elliptic-parabolic system modeling a class of engineering problems with thermal effect is studied. Existence of a weak solution is first established through a result of Meyers' theorem and Sc...In this paper, a coupled elliptic-parabolic system modeling a class of engineering problems with thermal effect is studied. Existence of a weak solution is first established through a result of Meyers' theorem and Schauder fixed point theorem, where the coupled functions σ(s),k(s) are assumed to be bounded in the C(IR×(0, T)). If σ(s),k(s) are Lipschitz continuous we prove that solution is unique under some restriction on integrability of solution. The regularity of the solution in dimension n ≤ 2 is then analyzed under the assumptions on σ(s) ∈w^1,∞(Ω×(0, T)) and the boundedness of σ'(s) and σ″(s).展开更多
基金Foundation item: Supported by the National Natural Science Foundation of China(40537034)
文摘In this paper, a coupled elliptic-parabolic system modeling a class of engineering problems with thermal effect is studied. Existence of a weak solution is first established through a result of Meyers' theorem and Schauder fixed point theorem, where the coupled functions σ(s),k(s) are assumed to be bounded in the C(IR×(0, T)). If σ(s),k(s) are Lipschitz continuous we prove that solution is unique under some restriction on integrability of solution. The regularity of the solution in dimension n ≤ 2 is then analyzed under the assumptions on σ(s) ∈w^1,∞(Ω×(0, T)) and the boundedness of σ'(s) and σ″(s).
