The Science Behind Stronger, Smarter Materials | HackerNoonPolyethylene-based metamaterials enable advanced acoustic control using relaxed micromorphic modeling approaches.
How Symmetric and Skew-Symmetric Tensors Interact | HackerNoonPolyethylene-based metamaterials hold potential for advanced acoustic control applications.
Fine-Tuning Acoustic and Optical Waves in Metamaterials | HackerNoonThe article explores a polyethene-based metamaterial for acoustic control using relaxed micromorphic modeling and dispersion curve analysis.
Semi-Analytical Algorithm for Metamaterial Parameter Fitting | HackerNoonThe study emphasizes a fitting algorithm for relaxed micromorphic models over specific fitting results, highlighting material properties consistency.
The Science Behind Stronger, Smarter Materials | HackerNoonPolyethylene-based metamaterials enable advanced acoustic control using relaxed micromorphic modeling approaches.
How Symmetric and Skew-Symmetric Tensors Interact | HackerNoonPolyethylene-based metamaterials hold potential for advanced acoustic control applications.
Fine-Tuning Acoustic and Optical Waves in Metamaterials | HackerNoonThe article explores a polyethene-based metamaterial for acoustic control using relaxed micromorphic modeling and dispersion curve analysis.
Semi-Analytical Algorithm for Metamaterial Parameter Fitting | HackerNoonThe study emphasizes a fitting algorithm for relaxed micromorphic models over specific fitting results, highlighting material properties consistency.
A New Method for Predicting How Waves Move Through Materials | HackerNoonThe relaxed micromorphic model provides a framework for simplifying the analysis of acoustic metamaterials through Fourier-based methods.