How to Increase Rigidity and Resistance to Flutter?

What is a suspension structure that can increase rigidity and resistance to flutter?

Options:

  • Option 1: Double cable structure
  • Option 2: Single cable structure
  • Option 3: Tensioned strut system
  • Option 4: Cantilevered cable arrangement

Answer:

A suspension structure with upper and lower sets of cables of different curvatures that are pretensioned by ties or compression struts to increase rigidity and resistance to flutter is called a tensioned strut system.

Have you ever wondered how suspension structures can be designed to become more rigid and resistant to flutter? The answer lies in a tensioned strut system, which consists of upper and lower sets of cables with different curvatures that are pretensioned by ties or compression struts.

The main purpose of pretensioning the cables in a tensioned strut system is to make the entire structure more rigid and resistant to flutter. Flutter is the rapid and unstable oscillation of the structure that can occur due to aerodynamic forces. By pretensioning the cables, the structure becomes more stable and less prone to flutter, ensuring its safety and stability.

This innovative design not only increases the rigidity of the suspension structure but also enhances its resistance to flutter, making it a reliable and safe solution for various architectural and engineering projects.

← How to calculate emf and motor constant of a 50 hp 240 vdc motor Knife anatomy what you need to know →