Description

Short technical description: Purpose: The Federal Outdoor Impact Laboratory is a research facility used to support the Federal Highway Administration's Safety Research and Development programs and other Federal security initiatives. Laboratory Description: Researchers use this facility to extend their understanding of crash events and dynamic loading that occur during impacts. One way this is accomplished is by staging controlled, high–speed motor vehicle collisions into roadside hardware (e.g., guardrails, sign supports, cable barriers, concrete safety shapes) or other vehicles to evaluate effectiveness. A pendulum test rig at the Federal Outdoor Impact Laboratory is often used to test dynamic response of hardware or vehicle components and subsystems. Primarily, researchers use this facility to generate data to formulate mathematical models or to confirm the accuracy of computer–generated crash predictions. Routine certification or compliance testing, including testing performed to ensure compliance with existing safety standards, is not conducted at the Federal Outdoor Impact Laboratory. Laboratory Capabilities: The Federal Outdoor Impact Laboratory features a state–of–the–science hydraulic propulsion system that is the first of its kind in the United States. The system includes a computer–controlled linear accelerator that can accelerate a vehicle or bogie up to impact speeds of 121 kilometers (75 miles) per hour. Heavy trucks weighing up to 8,165 kilograms (18,000 pounds) when fully loaded are limited to reduced speeds of 80 kilometers (50 miles) per hour. This is accomplished on a short concrete runway that is only 67 meters (220 feet) in length. A pendulum structure also is available at the Federal Outdoor Impact Laboratory for impact testing of structural components. This component level testing can be achieved through a drop test method or by the use its two available swingable weights symbolizing both a small car and a large pickup truck. Unique features: Laboratory Equipment: Prior to testing, the test vehicle's weight, the length of the runway up to the test structure, and the required collision speed is input into the computer that controls the propulsion system. Upon initiating a test, the computer automatically adjusts the flow rate of hydraulic fluid into two hydraulic motors that propel the test vehicle. The controlled flow into the motors precisely regulates the test vehicles acceleration as it is powered up to the desired test speed. Just prior to impact, the propulsion system is disengaged from the test vehicle so that it is completely unconstrained and freewheeling. This unconstrained motion approximates the conditions associated with a "real world" crash on the Nation's roadways. At impact into the test structure, the speed of the test vehicle is accurate to within 0.8 kilometers (0.5 miles) per hour of the desired collision speed. Dynamic–impact testing of structural components often is performed to assist in the development of accurate structures and is subsequently used to enhance the accuracy of the computer–generated collisions. The large swinging weight representing a large pickup truck has a mass of 1,996 kilograms (4,400 pounds), this gravity–propelled pendulum can attain impact speeds in excess of 32 kilometers (20 miles) per hour. Test instrumentation at the Federal Outdoor Impact Laboratory includes speed traps, accelerometers, angular motion rate gyroscopes, and load cells for determining the velocity, acceleration, roll, pitch, and yaw motions of test vehicles, and the impact loads resulting from high–speed collisions. Data collection from this instrumentation is accomplished using onboard, solid–state recording devices. A telemetry system is used to transfer data to the data processing center. Visual documentation and analysis of the test is achieved using high–speed state–of–the–science digital cameras that enable researchers to visualize the impact and deformation of the test vehicles and structures. In addition, almost immediately after the test, researchers can review and analyze the visual information. Specified type of facility: crash test of vehicle to roadway hardware and vehicle to vehicle

Keywords

crash tests, vehicle to hardware crash, vehicleto vehicle crash

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