Browse > Article

Non-Destructive Evaluation of Separation and Void Defect of a Pneumatic Tire by Speckle Shearing Interferometry  

Kim, Koung-Suk (Department of Mechanical Information Engineering, Chosun University)
Kang, Ki-Soo (Graduate school, Chosun University)
Jung, Hyun-Chul (Graduate school, Chosun University)
Ko, Na-Kyong (Department of Information and Control Engineering, Chosun University)
Publication Information
Journal of Mechanical Science and Technology / v.18, no.9, 2004 , pp. 1493-1499 More about this Journal
Abstract
This paper describes the speckle shearing interferometry, a non-destructive optical method, for quantitative estimation of void defect and monitoring separation defect inside of a pneumatic tire. Previous shearing interferometry has not supplied quantitative result of inside defect, due to effective factors. In the study, factors related to the details of an inside defect are classified and optimized with pipeline simulator. The size and the shape of defect can be estimated accurately to find a critical point and also is closely related with shearing direction. The technique is applied for quantitative estimation of defects inside of a pneumatic tire. The actual traveling tire is monitored to reveal the cause of separation and the starting points. And also unknown void defects on tread are inspected and the size and shape of defects are estimated which has good agreement with the result of visual inspection.
Keywords
Speckle Shearing Interferometry; Pneumatic Tire; Quantitative Estimation; Separation Defect; Void Defect; Effective Factor; Amount of Shearing;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Baek, T. H., Kim, M. S., Morimoto, Y. and Fujigaki, M., 2002, 'Separation of Isochromatics and Isoclinics from Photoelastic Fringes in a Circular Disk by Phase Measuring Technique,' KSME International, Vol. 16, No.2. pp.175-181   과학기술학회마을
2 Berger, H., 1981, 'An Overview: New Ideas in Nondestructive Evaluation,' Rubber Chemistry and Technology, Vol. 54. Iss. 5, pp. 996-1002
3 Ettemeyer, A., 1996, 'Laser Shearography for Inspection of Pipelines,' Nuclear Engineering and Design, Vol. 160, pp.237-240   DOI   ScienceOn
4 Hung, Y. Y., 1974, 'A Speckle-Shearing Interferometer: A tool for Measuring Derivatives of Surface Displacements,' Optics Communications, Vol. 11, pp. 132-135   DOI   ScienceOn
5 Rastogi, P. K., Eds., 2001, Digital Speckle Pattern Interferometry and Related Techniques, John Willey & Sons Ltd., New York, pp. 179-203
6 Shang, H. M., Toh, S. L., Chau, F. S., Shim, V. P. W. and Tay, C. J., 1991, 'Locating and Sizing Disbands in Glass Fiber-reinforced Plastic Plates using Shearography,' Journal of Engineering Materials and Technology, Vol. 113, pp.99-103
7 Steinchen, W. and Yang, L., 2003, Digital Shearography, SPIE Press., Washington, pp. 55-72
8 Newman, J. W., 1993, 'Advanced Shearography Tire Analysis,' Tire Technology International, pp. 15-18
9 Borza, D. N., 1998, 'Specialized Techniques in Holographic Non-Destructive Testing of Composites,' Composites Part B : Engineering, Vol. 29, pp.497-504   DOI   ScienceOn
10 Cloud, G. L., 1990, Optical Methods of Engineering Analysis, Cambridge University Press., England, pp.477-491