Add to ORKGThe stopping distance, brake application velocity, and time of brake application were measured for two modern jet transports, along with the NASA diagonal-braked vehicle and the British Mu-Meter on several runways, which when wetted, cover the range of slipperiness likely to be encountered in the United States. Tests were designed to determine if correlation between the aircraft and friction measuring vehicles exists. The test procedure, data reduction techniques, and preliminary test results obtained with the Boeing 727, the Douglas DC-9, and the ground vehicles are given. Time histories of the aircraft test run parameters are included
Friction measurement results obtained on the gypsum surface runways at Northrup Strip, White Sands M...
This document describes operations associated with a set of flight experiments and demonstrations us...
Some background information is given together with the scope and objectives of a 5-year, Joint Winte...
Aircraft stopping distances on wet runways are accurately predicted by measurements taken with a con...
A description of the joint test program objectives and scope is given together with the performance ...
A series of NASA Diagonal-Braked Vehicle (DBV) test runs were performed on the soil runway 7/25 at H...
Aircraft and ground vehicle friction data collected during the Joint FAA/NASA Runway Friction Progra...
Aircraft stopping and directional control performance on wet runways is discussed. The major element...
Two runways were evaluated under artificially wetted conditions with the NASA diagonal-braked vehicl...
Comparison of aircraft and surface vehicle stopping performance under varying runway condition
The braking performance of a nine-place, light, twin-engine airplane was evaluated on comparative gr...
A tire and landing gear test facility has been developed and incorporated into a Convair 990 aircraf...
Comparative braking performance of various aircraft on grooved and ungrooved pavement
There is a need for information on runways which may become slippery due to various forms and types ...
The braking and cornering response of a slip velocity controlled, pressure bias modulated aircraft a...
Friction measurement results obtained on the gypsum surface runways at Northrup Strip, White Sands M...
This document describes operations associated with a set of flight experiments and demonstrations us...
Some background information is given together with the scope and objectives of a 5-year, Joint Winte...
Aircraft stopping distances on wet runways are accurately predicted by measurements taken with a con...
A description of the joint test program objectives and scope is given together with the performance ...
A series of NASA Diagonal-Braked Vehicle (DBV) test runs were performed on the soil runway 7/25 at H...
Aircraft and ground vehicle friction data collected during the Joint FAA/NASA Runway Friction Progra...
Aircraft stopping and directional control performance on wet runways is discussed. The major element...
Two runways were evaluated under artificially wetted conditions with the NASA diagonal-braked vehicl...
Comparison of aircraft and surface vehicle stopping performance under varying runway condition
The braking performance of a nine-place, light, twin-engine airplane was evaluated on comparative gr...
A tire and landing gear test facility has been developed and incorporated into a Convair 990 aircraf...
Comparative braking performance of various aircraft on grooved and ungrooved pavement
There is a need for information on runways which may become slippery due to various forms and types ...
The braking and cornering response of a slip velocity controlled, pressure bias modulated aircraft a...
Friction measurement results obtained on the gypsum surface runways at Northrup Strip, White Sands M...
This document describes operations associated with a set of flight experiments and demonstrations us...
Some background information is given together with the scope and objectives of a 5-year, Joint Winte...