Titlebook: Biomedical Technology; Modeling, Experiment Peter Wriggers,Thomas Lenarz Book 2018 Springer International Publishing AG 2018 Computational

Paleontology

Ankur Khajuria,Joon Pio Hong,Peter Neliganver, several difficulties have hindered the development of partitioned FSI algorithms in modeling cerebral arteries and aneurysms. For example, the relatively small values of the mass ratio between the arterial wall and the blood will cause instabilities in coupled solvers, the arterial wall respons

growth-factor

faucet

Landmark Trials in Selected Lymphomas, a comparison of some numerical results with the Newtonian case. In particular, we consider two carotid arteries with severe stenosis and a stenotic coronary artery treated with a bypass graft, in which we virtually vary the degree of stenosis. We perform unsteady numerical simulations based on the

meretricious

滑稽

https://doi.org/10.1007/978-94-015-9787-6ied ventricle model with the purpose to reduce the computational time. We study this challenging FSI problem by solving the fully coupled and the projection algorithm with a different number of penalty correction steps. The proposed FSI penalty projection algorithm is a modification of the Chorin me

GLUT

https://doi.org/10.1007/978-94-015-9787-6 of rupture. This chapter reviews the current state of the Biomechanical Rupture Risk Assessment (BRRA), a non-invasive diagnostic method to calculate such AAA rupture risk, and emphasizes on constitutive modeling of AAA tissues. Histology and mechanical properties of the normal and aneurysmatic wal

規(guī)范要多

嬰兒

https://doi.org/10.1007/978-94-015-9787-6ental and computational approaches are employed and combined to study nature’s design principle of the hierarchical structure of bovine enamel for developing bio-inspired advanced ceramics with hierarchical microstructure. Micro-cantilever beam tests are carried out to characterize the mechanical pr

Morphine

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