Development of 3D boundary element method for the simulation of acoustic metamaterials/metasurfaces in mean flow for aerospace applicationsBoundary element methodmetamaterialmean flowimpedancenoise attenuationLow-cost airlines have significantly increased air transport, thus an increase in aviation noise. ...
Potential applications of non-Newtonian metamaterials to aerospace Let us discuss potential situations where a non-Newtonian solid metamaterial could be of help. In the aerospace industry, satellite docking is a delicate process because of the strict requirements on space stations and of the limitations...
The mechanical performance of materials is equally important for electromagnetic metamaterials, especially in aerospace applications where specific strength is crucial. Metamaterials with higher specific strength not only provide additional structural support to prevent vibration damage but also enhance power econ...
RF metamaterials are engineered to interact with electromagnetic waves within the 600 MHz to 1 THz frequency range. Their potential applications span across telecommunications, security and aerospace, automotive and healthcare sectors. IDTechEx's analysis highlights key applications in each category, includi...
[15,16,17]. Consequently, they have tremendous potential for applications in aerospace, electronic communication, and transportation industries. Over the past decade, Additive Manufacturing (AM) technology has undergone rapid development and plays an important role in fabricating components with complex ...
DFM technology is used most effectively for products that deal with motion, such as automotive, aerospace, and robotics, as well as components such as fans, springs, switches, and levers. By reimagining these compliant mechanisms, Nature Architect engineers produce the desired movement through ...
years, driven by advancements in three-dimensional manufacturing processes and optimization techniques. Lattice structures, known for their high strength-to-weight ratio, energy absorption capabilities, and structural stability, play an indispensable role in aerospace, automotive, biomedical, and energy ...
through artificially designed micro nano structures, such as negative refraction, perfect lens effect, stealth properties, etc. These characteristics have demonstrated enormous potential and strategic value in various fields such as national defense, aerospace, electronic information, energy, and healthcare....
By combining desirable metamaterials with advances of manufacture19, these metamaterials could provide promising solutions to replace conventional materials in high-value applications such as biomedical industries20,21,22, aerospace23,24,25, and civil engineering26,27. Recent studies have shown that ...
Applications for such metamaterials include aerospace and transport components, as well as precision engineering components such as vibration-suppressing platforms, supports for rotary components, machine tool mounts and metrology frames.doi:10.1038/s41598-019-47644-0W. Elmadih...