Studying of Volumetric Expansion and Uniaxial Stress-Strain Using Speckle

N. Farid, H. Hussein, A. Eltawil, M. Bahrawi


Download Paper

Base Information

Volume

V48 - N4 / 2015 Ordinario

Reference

291-299

DOI

http://dx.doi.org/10.7149/OPA.48.4.291

Language

English

Keywords

Thermal expansion, Stress-Strain, Speckle, Fourier transform

Abstract

The paper presents a speckle photographic technique for studying the effect of both temperature and mechanical stress on a sheet of acrylic (Poly Methyl Methacrylate). A temperature control system was used to heat the acrylic sheet with a homogeneous distribution of temperature on the acrylic surface. Standard masses calibrated at NIS laboratory of mass were used to produce uniaxial stress on the acrylic sheet. The object sides were illuminated by diode laser and the speckle was recorded under both effects and then analyzed by the Fourier transformation. The correlated speckle patterns produced Young's interference fringes which differed in numbers, separation, and orientation according to the applied effect. Both volumetric thermal expansion and modulus of elasticity could be measured and were found to be in good agreement with the corresponding reference values of the object material. Theoretical analysis, method, and results are also presented. The results proved the reliability of the used technique for studying thermal and mechanical expansions of the acrylic material.

References

0

G. Gloud, Optical Methods in Engineering Analyses. Cambridge, Cambridge University Press (1998).

1

I. Razumovsky, Interference Optical Methods of Deformable Solid Mechanics. Moscow Higher Technical University n.a. N.E. Bauman Publishing House (2007).

2

A. Chernyatin, I. Razumovsky, "Experimental and Computational Method for Determining Parameters of Stress-Strain State from the Data Obtainable by Interference Optical Techniques," EPJ Web of Conferences 6, 45003 (2010). DOI

3

M. Abdel Hady, M Necklawi, A. Fahim, M. Bahrawi, N. Farid, "Speckle Photography in Measuring Thermal Expansion," MAPAN 27, 133-137(2012). DOI

4

K. Stetson, Fringe 2009: Digital Fourier-transform processing for analysis of speckle photographs , W. Osten, M. Kujawinska eds., Springer - Verlag Berlin Heidelberg (2009).

5

F. Chiang, L. Mao, "Development of interior strain measurement techniques using random speckle patterns," Meccanica 50, 401-410 (2015). DOI

6

Organization International De MetrologieLegale, "OIML R 111-1", Ed (2004).

7

N. Farid, H. Hussein, M. Bahrawi, "Employing of Diode Lasers in Speckle Photography and Application of FFT in Measurements," MAPAN 30, 125-129 (2015). DOI

8

L. Shirley, G. Hallerman, "Nonconventional 3D Imaging Using Wavelength-Dependent Speckle," Linc. Lab. J. 90, 153-186 (1996).

9

M. Abdel Hady, Application of multiwavelength speckle in static and dynamic displacements measurement, Master Thesis, Faculty of Science, Helwan university (2013).

10

J. Goodman, Introduction to Fourier optics, Singapore, 2nded: McGraw hill, 63-90 (1996).

11

B. Zadlera, J. Scales, "Monitoring crack-induced changes in elasticity with resonant spectroscopy," Journal of Applied Physics 104, 1-4 (2008). DOI