Computational Biomechanics
No | Sesion | Date | From | Till | Room | chairman | co-chairman |
23,1 | S1 | 2001-06-26 | 14:00 | 15:30 | C | G.A. Holzapfel | R. Będziński |
23,2 | S2 | 2001-06-26 | 16:00 | 17:30 | C | G.A. Holzapfel | R.W. Ogden |
23,3 | S3 | 2001-06-26 | 18:00 | 19:20 | C | R. Eberlein | |
23,4 | S4 | 2001-06-27 | 10:45 | 12:15 | C | R. Będziński | J. Vander Sloten |
23,5 | S5 | 2001-06-27 | 14:00 | 15:30 | C | J.J. Telega | G.A. Holzapfel |
23,6 | S6 | 2001-06-27 | 16:00 | 17:30 | C | M. Oshima | E.B. de Las Casas |
S 1
Time | Authors | Title | No | T |
14:00 | M. Oshima, K. Takagi, R. Torii | Experimental and numerical investigation of blood flow in the cerebral artery | 618 | I |
14:36 |
M. Behr, D. Arora, S. Schulte-Eistrup |
Prediction of flow features in centrifugal blood pumps | 565 | C |
14:54 | R.W. Ogden | Influence of residual stress on the mechanical response of artery walls | 333 | C |
15:12 | M. Stadler, C.A.J. Schulze-Bauer, G.A. Holzapfel | Numerical simulation of balloon angioplasty: analysis and implications of wall stress distribution | 308 | C |
S 2
Time | Authors | Title | No | T |
16:00 | R.W. Ogden, A. Dorfmann | Anisotropic pseudo-elasticity in soft tissues | 324 | C |
16:18 | S. Jemioło, J.J. Telega | Isotropic and anisotropic hyperelastic models of soft tissues | 272 | C |
16:36 | M. Itskov, N. Aksel | A generalized orthotropic constitutive model for large strain analysis of soft biological tissues | 80 | C |
16:54 | E. Majchrzak, M. Jasiński | Sensitivity analysis of transient heat transfer in domain of biological tissue | 303 | C |
17:12 | R. Cimrman, E. Rohan | FE simulation of muscle behaviour in dynamic problems | 184 | C |
S 3
Time | Authors | Title | No | T |
18:00 | R. Eberlein, G.A. Holzapfel, C.A.J. Schulze-Bauer | A single layer approach to fiber-reinforced intervertebral disc modeling: physical relevance and interpretation | 105 | C |
18:20 | J. Sumec, M. Sokol | Computational modeling of the human spine response | 569 | C |
18:40 | M.B. Ogurkowska, T. Łodygowski | Preliminary numerical study on the behaviour of lumbar vertebrae L1 to L5 of human cancellous bone | 326 | C |
19:00 | M. Gzik, D. Tejszerska | Modelling and numerical simulation of human cervical spine | 422 | C |
S 4
Time | Authors | Title | No | T |
10:45 | J. Vander Sloten, C. Van Oosterwyck, T. Van Cleynenbreugel | Generation and regeneration of bones: contributions of biomechanics | 588 | I |
11:20 | P. Kowalczyk | Anisotropic properties of trabecular bone derived from 2-d finite element microstructure models | 134 | C |
11:38 | Y. Gu, B. Chen, S. Liu | Numerical calculation of material properties for trabecular bone with homogenization theory | 274 | C |
11:56 | R. Będziński, K. Scigala | FEM analysis of strain distribution in tibia bone and relationship between strains and adaptation of bone tissue | 557 | C |
S 5
Time | Authors | Title | No | T |
14:00 | M.J. Gómez, J.M. Garcia, M. Doblaré | Prediction of bone femoral fractures by means of the finite element method | 209 | C |
14:18 | A. John, P. Orantek | Numerical modeling of human pelvic bone | 242 | C |
14:36 | A.M. Dąbrowska-Tkaczyk | The principial stresses in the numerical model of pelvic bone | 485 | C |
14:54 | S. Tokarzewski, J.J. Telega, A. Gałk a | Influence of marrow on macroscopic response of bone: application of Pade approximants | 206 | C |
15:12 | J. Saucha, J. Radoš, D. Badanjak | Significance of the curvature of the shaft of the femur in the bending stress analysis | 132 | C |
S 6
Time | Authors | Title | No | T |
16:00 | J. Cegońino, B. Calvo, M. Doblaré | Biomechanical study of the meniscus by means of the natural element method | 292 | C |
16:20 | S. Bauer | Deformation of the Lamina Cribrosa. Features of the LC, which increase the susceptibility of eyes to glaucomatous damage | 255 | C |
16:40 | A.C.B. Vieira, E.B. de Las Casas, C.A. Cimini, T.P. Cornacchia | Parametric Finite Element modeling in dentistry | 66 | C |
17:00 | J. Rojek, J.J. Telega, P. Maldyk, J. Kowalczewski | Contact with adhesion - theoretical formulation and application to knee joints after arthroplasty | 133 | C |