“While the brakes themselves are a very small component in the entire wind turbine system, it is critical that they can meet the specific needs for the high energy wind power market,” said Jerry Lynch, president and COO of GMP Friction Products. “Our brake friction materials are more efficient and have a longer life which means fewer service requirements,”
A high energy test, developed specifically for the wind market, has been successfully conducted using both the GMP Friction Products’ in-house dynamometers and third party dynamometers for equivalent energy, torque output, coefficient of friction, and wear rate. Field testing was also conducted using the new brake material. The tests were developed and conducted in collaboration with wind turbine manufacturers and brake manufacturers.
This new braking friction product, when used by wind turbines, is designed to brake quicker and more securely during heavy winds, which reduces the risk of damage during storms. The company’s sintered metallic friction materials are able to withstand high-speed/high-energy absorption and peak temperatures.
GMP Friction Products will be attending WindPower 2012, hosted by the American Wind Energy Association June 3-6 in Atlanta, Georgia. Representatives from GMP Friction Products will be available to discuss the new brake material applications with attendees from the wind turbine and brake markets during the event.
Since 1929, GMP Friction Products has designed and manufactured brake pads and clutch plates for use in a variety of industrial and automotive applications. They provide friction material products to non-automotive industrial manufacturers such as off-road vehicles, construction, industrial equipment, aerospace, heavy truck, wind turbine and other specialty markets. GMP Friction Products is a privately-held woman-owned small business. As a world leader in sintered metallic friction materials, they specialize in working with clients to engineer and create customized parts in a range of materials for controlling, stopping, or transmitting power. For