Optical Technique for Measuring Tire Deformation and Strains

Paul P. Lin; Mangal D. Chawla; Paul C. Ulrich

doi:10.4271/941178

Optical Technique for Measuring Tire Deformation and Strains

Paul P. Lin, Mangal D. Chawla, Paul C. Ulrich

Wright-Patterson Air Force Base

Research output: Contribution to journal › Article › peer-review

Abstract

The main objective of this research was to apply an optical technique called fringe projection to quantifying the aircraft tire deformation and strains. The proposed fringe projection technique, using a single light source and a grating, requires no image superposition. Thus, the measurement is not very sensitive to vibration. Three different types of tires in static and dynamic conditions, subjected to different amounts of tire deflections, were tested. A common practice in three dimensional optical measurement is that a fixed reference plane has to be established, from which a fixed reference point is selected. The main technical difficulty in this research is that a tire subjected to an applied load not only moves and rotates, but deforms as well. Therefore, the selected reference point changes its position in three dimensions all the time.

Original language	American English
Journal	Aerospace Engineering Magazine
DOIs	https://doi.org/10.4271/941178
State	Published - Jul 1 1994

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Mechanical Engineering

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http://magazine.sae.org/aerojul94

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title = "Optical Technique for Measuring Tire Deformation and Strains",

abstract = " The main objective of this research was to apply an optical technique called fringe projection to quantifying the aircraft tire deformation and strains. The proposed fringe projection technique, using a single light source and a grating, requires no image superposition. Thus, the measurement is not very sensitive to vibration. Three different types of tires in static and dynamic conditions, subjected to different amounts of tire deflections, were tested. A common practice in three dimensional optical measurement is that a fixed reference plane has to be established, from which a fixed reference point is selected. The main technical difficulty in this research is that a tire subjected to an applied load not only moves and rotates, but deforms as well. Therefore, the selected reference point changes its position in three dimensions all the time.",

author = "Lin, \{Paul P.\} and Chawla, \{Mangal D.\} and Ulrich, \{Paul C.\}",

note = "Lin, P. P., Chawla, M. d., and Ulrich, P. C., {"}Optical Measurement for Tire Deformation and Strain,{"} Aerospace Engineering Magazine, pp. 11-12, July 1994",

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doi = "10.4271/941178",

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journal = "Aerospace Engineering Magazine",

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AU - Lin, Paul P.

AU - Chawla, Mangal D.

AU - Ulrich, Paul C.

N1 - Lin, P. P., Chawla, M. d., and Ulrich, P. C., "Optical Measurement for Tire Deformation and Strain," Aerospace Engineering Magazine, pp. 11-12, July 1994

PY - 1994/7/1

Y1 - 1994/7/1

N2 - The main objective of this research was to apply an optical technique called fringe projection to quantifying the aircraft tire deformation and strains. The proposed fringe projection technique, using a single light source and a grating, requires no image superposition. Thus, the measurement is not very sensitive to vibration. Three different types of tires in static and dynamic conditions, subjected to different amounts of tire deflections, were tested. A common practice in three dimensional optical measurement is that a fixed reference plane has to be established, from which a fixed reference point is selected. The main technical difficulty in this research is that a tire subjected to an applied load not only moves and rotates, but deforms as well. Therefore, the selected reference point changes its position in three dimensions all the time.

AB - The main objective of this research was to apply an optical technique called fringe projection to quantifying the aircraft tire deformation and strains. The proposed fringe projection technique, using a single light source and a grating, requires no image superposition. Thus, the measurement is not very sensitive to vibration. Three different types of tires in static and dynamic conditions, subjected to different amounts of tire deflections, were tested. A common practice in three dimensional optical measurement is that a fixed reference plane has to be established, from which a fixed reference point is selected. The main technical difficulty in this research is that a tire subjected to an applied load not only moves and rotates, but deforms as well. Therefore, the selected reference point changes its position in three dimensions all the time.

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M3 - Article

JO - Aerospace Engineering Magazine

JF - Aerospace Engineering Magazine

ER -

Optical Technique for Measuring Tire Deformation and Strains

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