Have you ever wondered what those rods protruding from the trailing edge of an aircraft wing are? Some may believe they are aerials or sensors, but it is much simpler than that. These are known as static wicks, and they are critical for safe flight. Here’s what you should know!
What is the Static Wicks?
Depending on the aircraft type, there could be 5, 10, or even more visible. So, what are they for? These tiny rods are known as static wicks, and they play an essential role in flight safety. These small devices, also known as static discharges, aid in the dissipation of static charge that may be encountered during the flight. Lightning is the most obvious source of static electricity. The video below shows a huge lightning bolt struck a 777 KLM aircraft just after it took off from Amsterdam:
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Modern aircraft are built to withstand this, and static wicks are one component that protects the plane from lightning strikes. However, the plane itself can occasionally generate a static charge as a result of rubbing against the particles in the atmosphere. This is certainly relevant when flying through cloud cover or precipitation. This friction can cause static buildup, with excess electrons frequently accumulating in the airframe’s thinnest edges, such as the ends of the ailerons and flaps. The problem with this type of charge buildup is that if it is not distributed evenly across the airframe, it can cause a spark.
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For obvious reasons, a spark near the engine and fuel tanks is not a desirable situation. Furthermore, excessive static can interfere with radios and other sensitive equipment on board. If you look closely, you’ll notice that the static wick is made of a cord-like structure riveted to the skin of the trailing edge. This ensures that it comes into contact with the aircraft’s surface. Hundreds of cotton fibers impregnated with graphite are wrapped into a cylinder about the thickness of a soda straw to form the device.
Static wicks are frequently tapered towards the end, with a sharp carbon point at the tip. This gradient attracts the static charge, allowing electrons to exit the aircraft and return to the atmosphere. This effectively discharges static from the aircraft, preventing radio interference and charge buildup on the plane’s surfaces. It should be noted that the wicks may not discharge an aircraft completely. As a result, earthing is required when the aircraft is on the ground and being refueled.
The occupants of the aircraft are safe in the unlikely event of a lightning strike. As the aircraft’s surface conducts electricity through its skin, the wicks allow these massive voltages to be safely discharged. Such an extreme event, however, can occasionally cause the wicks to become burned or melted. Fortunately, they are simple and inexpensive to replace, and the ground crew will regularly inspect aircraft to ensure that all static wicks are in good working order.
Static wicks have been in use since the Second World War and today are mandated by regulators like the FAA for all civil aircraft.
Tell us in the comments below if you were hit before by a bolt of lightning on your aircraft during a flight.
Youssef Yahya is the CEO and Founder of Aviation for Aviators. He also serves as the Chief-in-Editor of the platform’s website, where he shares his passion for aviation and provides valuable resources for aviation enthusiasts and professionals alike. His love for aviation and entrepreneurial spirit drive him to create innovative solutions, making Aviation for Aviators a unique resource in the aviation sector.
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Thank you for adding my knowledge on aircrafts and the airlines on the whole.
Yes our plane had a strike. While on final approach to landing in Jamaica from Dominica. It was an outer feeder band of Hurricane Ian and we were in a lear 35 on a medical transport flight