AbstractA description of the background to testing friction materials for automotive brakes explains the need for a rapid, inexpensive means of assessing their behaviour in a way which is both accurate and meaningful.
Various methods of controlling inertia dynamometers to simulate road vehicles are rejected in favour of programming by means of a commercially available XY plotter.
Investigation of brake service conditions is used to set up test schedules, and a dynamometer programming unit built to enable service conditions on vehicles to be simulated on a full scale dynamometer. A technique is developed by which accelerated testing can be achieved without operating under overload conditions, saving time and cost without sacrificing validity.
The development of programming by XY plotter is described, with a method of operating one XY plotter to programme the machine, monitor its own behaviour, and plot its own results in logical sequence.
Commissioning trials are described and the generation of reproducible results in frictional behaviour and material durability is discussed.
Teclmiques are developed to cross check the operation of the machine in
retrospect, and retrospectively correct results in the event of malfunctions.
Sensitivity errors in the measuring circuits are displayed between calibrations,
whilst leaving the recorded results almost unaffected by error.
Typical results of brake lining tests are used to demonstrate the range of performance parameters which can be studied by use of the machine. Successful
test investigations completed on the machine are reported, including comments
on behaviour of cast iron drums and discs.
The machine shows that materials can repeat their complex friction/ temperature/speed/pressure relationships at a reproducibility of the order
of +-0.003u and +~ 0.0002 in. thickness loss during wear tests.
Discussion of practical and academic implications completes the report with recommendations for further work in both fields.
|Date of Award||May 1974|
|Supervisor||R.H. Thornley (Supervisor) & R.C. Parker (Supervisor)|
- testing procedure
- dry friction brakes
The development of a testing procedure for dry friction brakes
Hatch, D. (Author). May 1974
Student thesis: Doctoral Thesis › Doctor of Philosophy