AERODYNAMICS
With utmost flexibility, the composite material allows us to create blades with higher aerodynamic profiles. This makes it possible to create fans that are:
LOW SOUND
HIGHLY EFFICIENT
Our designs incorporate CFD: Computational Fluid Dynamics. The same technology used by major aeronautical centers powers our super low sound fans.
Figure: CFD - Computational Fluid Dynamics
PU EDGE
STRENGTH AND PERFORMANCE
Our engineering team developed a technique for applying PU (polyurethane) to the leading edge using the latest concepts in material technology. This process allows us to preserve the high performance features of our blade’s geometry.
Additionally, it provides protection while representing the ideal compromise between hardness, elongation, strength, traction, and resilience. All while meeting the latest specifications and recommendations defined by ASTM.
Figure: PU EDGE
The wear rate is a physical coefficient used to measure, characterize, and correlate the wear of materials.
Graph: Relationship between material hardness and wear coefficient
The lower the coefficient, the lower the wear and the higher the durability of the material.
COMPOSITE MATERIAL
PROVEN TO BE MORE RESISTANT THAN ALUMINUM
Super Low Sound Fan blades from FanTR are designed to last more than 30 years.
Gráfico: Diferença de durabilidade dos materiais
DURABILITY
DEVELOPED AND TESTED TO LAST LONGER
Thorough FATIGUE TESTS ensure that our products have: