Your English writing platform
Discover LudwigSuggestions(5)
Exact(9)
My research is in Fluid-Structure Interaction, meaning systems which exhibit coupling between fluid and structural dynamics.
The interactions between fluid and structural dynamics are an important subject of study in several engineering applications.
The interaction converges to a static deformation within 1% difference in the displacement variable after three iterations between fluid and structural codes.
The information passed between fluid and structural solvers is dimensionally equivalent in all cases, enabling the use of the same data structures for analysis, forward and adjoint problems.
In addition, a new nonlinear monolithic FE modeling method that involves the use of the deformation tensor is employed in order to consider the mutual coupling between fluid and structural domains.
In this work, the discrete nature of the evolutionary topology optimization approach allows the fluid-structure boundaries to be modelled and modified straightforwardly by switching the discrete design variables between fluid and structural finite elements.
Similar(51)
So-called immersed boundary approaches are thus frequently preferred in this situation, since they allow breaking the topological connection between the fluid and structural meshes and retrieve the expected level of robustness to handle complex structural motions.
To circumvent the costly iteration between fluid dynamics and structural mechanics, Larsson and Müller [15], Luo et al. [17] and Zheng et al. [27,28] employed a staggered coupling algorithm 1.
Both the fluid and structural dynamics of the interaction is addressed, with special attention paid to the interplay between the two.
Both fluid and structural nonlinearities are thought to contribute to these phenomena.
After the Hopf Bifurcation (flutter) condition is determined for the fluid-structural system, a novel High Dimensional Harmonic Balance (HDHB) solution method for the fluid (and structural) model(s) proves to be a very efficient technique for determining limit cycle oscillations in fluid-structural systems.
More suggestions(15)
between regulator and structural
between material and structural
between conduct and structural
between densification and structural
between agency and structural
between membrane and structural
between fluid and acoustic
between productivity and structural
between fluid and solid
between fluid and thermo-mechanical
between fluid and crystallized
between control and structural
between performance and structural
between creativity and structural
between fluid and electrolyte
Write better and faster with AI suggestions while staying true to your unique style.
Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com