For Load and Heat Transfer
A novel lattice sandwich structure with excellent load-bearing/heat dissipation multifunctional characteristics is proposed, which is applied to the ventilation disc brake of vehicles to achieve structural weight reduction and significantly improve the heat dissipation efficiency. By means of visualization experiment and numerical simulation of flow field and heat transfer under rotating conditions, the contribution of heat conduction, convection and radiation to the overall heat transfer in different regions such as disk surface and core was revealed, laying a foundation for further improvement of heat transfer performance
Integration of load bearing and heat dissipation, new lattice core ventilation brake disc
2. Shipborne Aircraft Gas Bias
Metal matrix core sandwich structure, set excellent load and dispersion/heat insulation in one, according to the proposed air active cooling and passive heat insulation deflector plate, to overcome the traditional device pipeline layout complex and easy to corrosion problems.
Integrated lattice metal thermal protection structure for load bearing and heat dissipation
Next Page:System Insulating