Title :
Fiber optic pressure/skin friction gage for supersonic flow applications
Author :
Pulliam, W. ; Jones, M. ; Schetz, J.A. ; Murphy, K.
Author_Institution :
F&S Inc., Blacksburg, VA, USA
fDate :
29 Sep-2 Oct 1997
Abstract :
A fiber optic skin friction gage has been developed for supersonic flow applications. Experimental results for a Mach 3 2-D flow are presented. Accuracy within 5% was attained. Also presented is a fiber optic combined pressure/skin friction gage for similar environments. The skin friction balance design is a non-nulling cantilevered beam with a sensing head attached to the end and is similar to other designs previously constructed by Schetz and his graduate students. The sensing head is aligned with the plane of the wall so that it is exposed only to the shear force. The cantilever beam deflects under the load due to the shearing force, and the resulting strain can be measured. In previous designs, either foil or semiconductor strain gages have been used. Fiber optic gages offer to increase resolution while substantially reducing temperature sensitivity
Keywords :
Mach number; aerodynamics; aerospace testing; fibre optic sensors; flow measurement; friction; pressure sensors; supersonic flow; Mach 3 2D flow; fiber optic sensors; nonnulling cantilevered beam; pressure gage; resolution; sensing head; shear force; skin friction gage; supersonic flow applications; temperature sensitivity; Capacitive sensors; Force measurement; Friction; Image motion analysis; Optical fibers; Shearing; Skin; Strain measurement; Structural beams; Temperature sensors;
Conference_Titel :
Instrumentation in Aerospace Simulation Facilities, 1997. ICIASF '97 Record., International Congress on
Conference_Location :
Pacific Grove, CA
Print_ISBN :
0-7803-4167-8
DOI :
10.1109/ICIASF.1997.644753
