Mixed Interface Problems of Thermoelastic Pseudo-Oscillations

Jentsch, L., Natroshvili, D., Sigua, I.

30 October 1998

Three-dimensional basic and mixed interface problems of the mathematical theory of thermoelastic pseudo-oscillations are considered for piecewise homogeneous anisotropic bodies. Applying the method of boundary potentials and the theory of pseudodifferential equations existence and uniqueness theorems of solutions are proved in the space of regular functions C^(k+ alpha) and in the Bessel-potential (H^(s)_(p)) and Besov (B^(s)_(p,q)) spaces. In addition to the classical regularity results for solutions to the basic interface problems, it is shown that in the mixed interface problems the displacement vector and the temperature are Hölder continuous with exponent 0<alpha<1/2.

mixed interface problems

thermoelastic pseudo-oscillations

pseudodifferential equations

MSC 31B10

MSC 31B25

MSC 35C15

MSC 35E05

MSC 45F15

MSC 73B30

MSC 73B40

MSC 73C15

MSC 73D30

ddc:510

Mixed Interface Problems of Thermoelastic Pseudo-Oscillations

Jentsch, L., Natroshvili, D., Sigua, I.

30 October 1998

Three-dimensional basic and mixed interface problems of the mathematical theory of thermoelastic pseudo-oscillations are considered for piecewise homogeneous anisotropic bodies. Applying the method of boundary potentials and the theory of pseudodifferential equations existence and uniqueness theorems of solutions are proved in the space of regular functions C^(k+ alpha) and in the Bessel-potential (H^(s)_(p)) and Besov (B^(s)_(p,q)) spaces. In addition to the classical regularity results for solutions to the basic interface problems, it is shown that in the mixed interface problems the displacement vector and the temperature are Hölder continuous with exponent 0<alpha<1/2.

info:eu-repo/classification/ddc/510

ddc:510

mixed interface problems

thermoelastic pseudo-oscillations

pseudodifferential equations

MSC 31B10

MSC 31B25

MSC 35C15

MSC 35E05

MSC 45F15

MSC 73B30

MSC 73B40

MSC 73C15

MSC 73D30