Fluid-Structure Interaction and Other Coupled Problems
No |
Sesion |
Date |
From |
Till |
Room |
chairman |
15,1 |
S5 |
2001-06-27 |
14:00 |
15:30 |
H |
R. Ohayon |
15,2 |
S6 |
2001-06-27 |
16:00 |
17:30 |
H |
F. Ihlenburg |
15,3 |
S7 |
2001-06-27 |
18:00 |
19:20 |
H |
S. Piperno |
15,4 |
S8 |
2001-06-28 |
10:45 |
12:05 |
H |
D.S. Burnett |
S 5
Time |
Authors |
Title |
No |
T |
14:00 |
S. Piperno, C. Farhat |
Design of efficient partitioned procedures for transient nonlinear aeroelastic problems based on energy exchange criteria |
448 |
I |
14:30 |
E. Kuhl, S. Hulshoff, R. de Borst |
A comparison of partitioned and monolithic solution procedures for fluid-structure interaction problems |
331 |
C |
14:50 |
B. Hübner, E. Walhorn, D. Dinkler |
Strongly coupled analysis of fluid-structure interaction using space-time finite elements |
276 |
C |
15:10 |
M. Lesoinne, T. Lieu |
A geometrically non-linear mesh motion technique for large displacements of unstructured fluid meshes for aeroelastic simulations |
228 |
C |
S 6
Time |
Authors |
Title |
No |
T |
16:00 |
D.S. Burnett |
Large-scale, 3-D, high fidelity, broadband structural acoustic modelling |
531 |
I |
16:30 |
E. Heikkola, T. Rossi, J. Toivanen |
Parallel solution methods for large-scale acoustic scattering problems |
347 |
C |
16:50 |
E. Onate, J. Garcia |
A finite element method for of fluid-structure interaction with surface waves |
430 |
C |
17:10 |
E. Bécache, G. Derveaux, P. Joly, A.U. Chaigne |
Numerical simulation of a guitar |
550 |
C |
S 7
Time |
Authors |
Title |
No |
T |
18:00 |
S. Kato, S. Suda, K. Imazu, H. Nakane, M. Kawahara |
A control analysis of displacement for interaction problem |
57 |
C |
18:20 |
J.T. Katsikadelis, M.S. Nerantzaki |
The ponding problem on membranes. An analog equation solution |
283 |
C |
18:40 |
E. Celebi, A.N. Gündüz |
Simplified formulations for soil-structure interaction analysis of irregular high-rise buildings under seismic loading |
543 |
C |
19:00 |
Y. Kononov, N.N. Shchepin |
Rotation of elastic ellipsoidal shell containing perfect liquid |
40 |
C |
S 8
Time |
Authors |
Title |
No |
T |
10:45 |
A. Kaèeniauskas |
Free surface and moving interface modelling by the finite element method and the finite volume method |
31 |
C |
11:05 |
S. Marburg |
Justification of a common discretization rule in boundary element methods for the Helmholtz equation |
523 |
C |
11:25 |
B. Nolte |
Boundary element analysis of fluid-structure interaction problems |
530 |
C |
11:45 |
Y. Kononov, V. Shevchenko |
Oscillations and equilibrium position stability of a cylindrical tanks, containing multilayer liquid, divided by elastic membranes |
41 |
C |