Numerical simulation of impulse waves in Cosserat media based on a time‐discontinuous Galerkin finite element method

Abstract: The time‐discontinuous Galerkin finite element method (TDGFEM) has advantages in reducing spurious numerical oscillations and capturing discontinuities of solutions in space for high‐frequency dynamical problems. This article extends TDGFEM into Cosserat media to focus on impulse wave propagations, involving rotational wave and effects of microstructures. The Cosserat continuum theory contains additional rotational degrees of freedom, leading to Cosserat compressive (P), shear (S), and rotational (R) waves. Th… Show more

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Online Simulation of Illustration Patterns Based on Digital Art Design

“…With the development of the economy, data networks have been scattered all around us, and digital products are also numerous, and you can get what you want from the network anytime, anywhere [5]. erefore, the digitization of disseminated content will be an inevitable result of social development.…”

Online Simulation of Illustration Patterns Based on Digital Art Design

Concrete Delamination Characterization by Multi-Channel Sur- Face Rayleigh Wave Measurement

On energy transfer and dissipation of intruder impacting granular materials based on discrete element simulations