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References 1 and 6 are:
1. Y. Bazilevs, K. Takizawa, and T.E. Tezduyar, Computational Fluid–Structure Interaction: Methods and Applications. Wiley, February 2013, ISBN 978-0470978771.
6. T.E. Tezduyar and S. Sathe, “Modeling of fluid–structure interactions with the space–time finite elements: Solution techniques”, International Journal for Numerical Methods in Fluids, 54 (2007) 855–900, doi: 10.1002/fld.1430.
This and the next 5 images are from:
T.E. Tezduyar (1), K. Takizawa (2) and Y. Bazilevs (3)
(1) Mechanical Engineering, Rice University, Houston, Texas, USA
(2) Department of Modern Mechanical Engineering and Waseda Institute for Advanced Study, Waseda University, Shinjuku-ku, Tokyo, Japan
(3) Department of Structural Engineering University of California, San Diego,
La Jolla, CA, USA
“Fluid-structure interaction and flows with moving boundaries and interfaces”, Encyclopedia of Computational Mechanics Second Editions, Part 2 Fluids (eds. E. Stein, R. De Borst and T.J.R. Hughes), Wiley, published online December 15 2017
ABSTRACT: Flows with moving boundaries and interfaces (MBI) include fluid–structure interaction and a number of other classes of problems, such as fluid–object interaction, fluid–particle interaction, free-surface and multi-fluid flows, and flows with solid surfaces in fast, linear or rotational relative motion. These problems are frequently encountered in engineering analysis and design, pose some of the most formidable computational challenges, and have a common core computational technology need. Bringing solution and analysis to them motivated the development of a good number of core computational methods and special methods targeting specific classes of MBI problems. This chapter is an overview of some of those core and special methods, with a focus on computational examples from the ST-VMS and ALE-VMS methods and special methods developed in conjunction with the two.
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