Finite Element Method
Mechanical Metamaterials
We specialize in high-precision mechanical simulations, analyzing stress-strain behavior and material responses under various loading conditions.
Using COMSOL Multiphysics, we model both linear and nonlinear mechanics to accurately describe the complex behavior of mechanical metamaterials. Our simulations capture intricate effects such as anisotropy, nonreciprocity, and tunable elasticity, providing valuable insights for research and engineering applications. Whether you're designing next-generation materials or optimizing structural performance, our expertise ensures reliable and cutting-edge computational analysis.
Advanced Acoustic Simulations for Metamaterials
We offer state-of-the-art acoustic simulations to analyze wave propagation in complex materials, including acoustic metamaterials. Using COMSOL Multiphysics, we model sound waves in both the frequency and time domains, capturing key phenomena such as dispersion, attenuation, and nonreciprocity. Our simulations enable precise computation of dispersion relations, band structures, and wave-matter interactions, essential for designing noise control systems, waveguides, and resonant structures. Whether optimizing acoustic performance or engineering novel wave manipulation effects, our expertise ensures accurate and insightful computational analysis for cutting-edge applications.
Thermal Simulations for Advanced Materials
We provide high-fidelity thermal simulations to analyze heat transfer mechanisms, including diffusion, convection, and radiation. Using COMSOL Multiphysics, we accurately model both steady-state and transient thermal behavior in complex materials and structures. Our expertise extends to linear and nonlinear thermal responses, ensuring precise analysis of temperature distribution, heat flux, and thermal management strategies. Whether you're working on thermal metamaterials, energy-efficient systems, or advanced heat dissipation solutions, our simulations deliver the insights needed for optimal design and performance.
