Which of the following is NOT a potential consequence of Aeolian vibrations?

Aeolian vibrations, which are the oscillations that occur in structures due to wind action, can lead to several adverse effects on structural integrity and performance. These vibrations can cause structural fatigue, as repeated stress can weaken materials over time. Additionally, power loss can occur in systems where energy transfer is disrupted by vibrations, such as in wind turbines or other machinery. Wear and tear are also common consequences, as the continued motion can erode materials and components.

In contrast, increased tensile strength is not a consequence of Aeolian vibrations. Rather, such vibrations typically exert stress on materials, which can lead to a reduction in tensile strength and structural integrity over time due to fatigue and damage, rather than enhancing strength. This understanding highlights that while structures may be designed with certain tolerances, the continuous effects of Aeolian vibrations tend to compromise their stability and reliability.