Abstract
Structures under a wide range of temperatures have been challenged by thermal problems. In order to assess the safety of structures in a thermal environment, thermal deformation and stress of structures should be determined by analysis and/or experimental method. This article presents a measurement method of the thermal deformation and stress of a double ring structure, which uses the digital image correlation method (DIC). The stress distribution of the double ring was obtained using a two-dimensional stress–strain relation. Efforts to remove measurement noise in the calculation of strain and stress are explained in detail. In order to verify the proposed measurementmethod, a finite element analysis of the double ring structure was performed using ABAQUS software. The results of DIC-based measurement and finite element analysis were found to be in good agreement.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
Earl, A.T., Thermal Structures for Aerospace Applications, American Institute of Aeronautics and Astronautics, Reston, VA (1996).
Micro-measurements, Strain Gauge Selection: Criteria, Procedures, Recommendations, Tech Note TN-505-4 (2010).
Anwander, M., Zagar, B.G., Weiss, B., and Weiss, H., “Noncontacting Strain Measurements at High Temperatures by the Digital Laser Speckle Correlation,” Experimental Mechanics 40: 98–105 (2000).
Post, D., and Wood, J., “Determination of Thermal Strains by Moiré Interferometry,” Experimental Mechanics 29: 318–322 (1989).
Han, B., “Recent Advancements of Moiré and Microscopic Moiré Interferometry for Thermal Deformation Analyses of Microelectronics Devices,” Experimental Mechanics 38: 278–288 (1998).
Lockberg, O.J., Malmo, J.T., and Slettemoen, G.A., “Interferometric Measurement of High Temperature Objects by Electronic Speckle Pattern Interferometry,” Applied Optics 24: 3167–3172 (1985).
Zandman, F., Redner, S.S., and Post, D., “Photoelastic-Coating Analysis in Thermal Fields,” Experimental Mechanics 3: 215–221 (1963).
Sutton, M.A., Wolaters, W.J., Peters, W.H., Ranson, W.F., and McNeill, S.R., “Determination of Displacements Using an Improved Digital Correlation Method,” Computer Vision 1: 133–139 (1983).
Sutton, M.A., Cheng, M., Peters, W.H., Chao, Y.J., and NcNeill, S.R., “Application of an Optimized Digital Correlation Method to Planar Deformation Analysis,” Image and Vision Computing 4: 143–150 (1986).
Pan, B., Wu, D., and Xia, Y., “High-Temperature Deformation Field Measurement by Combining Transient Aerodynamic Heating Simulation System and Reliability-Guided Digital Image Correlation,” Optics and Lasers in Engineering 48: 841–848 (2010).
Park, S.B., Dhakal, D., Lehman, L., and Cotts, E., “Measurement of Deformation in SnAgCu Solder Interconnects Under In Situ Thermal Loading,” Acta Materialia 55: 3253–3260 (2007).
Peter, W.H., and Ranson, W.F., “Digital Imaging Techniques in Experimental Stress Analysis,” Optical Engineering 21: 427–432 (1982).
Sutton, M.A., Orteu, J.J., and Schreier, H.W., Image Correlation for Shape, Motion and Deformation Measurement, Springer Science and Business Media, New York, NY (2009).
Schmidt, T., Tyson, J., and Galanulis, K., “Full-Field Dynamic Displacement and Strain Measurement Using Advanced 3D Image Correlation Photogrammetry: Part 1,” Experimental Techniques 27: 47–50 (2003).
Yoneyama, S., Kitagawa, A., Lwata, S., Tani, K., and Kikuta, H., “Bridge Deflection Measurement Using Digital Image Correlation,” Experimental Techniques 31: 34–40 (2007).
Chrysochoos, A., Huon, V., Jourdan, F., Muracciole, J.M., Peyroux, R., and Wattrisse, B., “Use of Full-Field Digital Image Correlation and Infrared Therography Measurement for the Thermomechanical Analysis of Material Behavior,” Strain 46: 117–130 (2009).
Horacio, D.E., Allison, L.J., Felix, J.L., Owen, Y.L., David, G., and Pablo, D.Z., “Tablet-Level Origin of Toughening in Abalone Shells and Translation to Synthetic Composite Materials,” Nature Communications 173: 1–9 (2011).
Ha, N.S., JIN, T.L., Goo, N.S., and Park, H.C., “Anisotropy and Non-Homogeneity of an Allomyrina Dichotoma Beetle Hind Wing Membrane,” Bioinspiration & Biomimetics 6: 1–15 (2011).
Lyons, J.S., Liu, J., and Sutton, M.A., “High-Temperature Deformation Measurements Using Digital Image Correlation,” Experimental Mechanics 36: 64–70 (1996).
Thompson, R.J., and Hemker, K.J., “Thermal Expansion Measurement on Coating Materials by Digital Image Correlation,” SEM Annual Conference & Exposition on Experimental and Applied Mechanics, 2007.
Pan, B., Wu, D., Wang, Z., and Xia, Y., “High-Temperature Digital Image Correlation Method for Full-Field Deformation Measurement at 1200°C,” Measurement Science and Technology 22: 1–11 (2011).
Pan, B., Wu, D., and Xia, Y., “An Active Imaging Digital Image Correlation Method for Deformation Measurement Insensitive to Ambient Light,” Optics & Laser Technology 44: 204–209 (2012).
Sutton, M.A., Yan, J.H., Tiwari, V., Schreier, H.W., and Orteu, J.J., “The Effect of Out-of-Plane Motion on 2D and 3D Digital Image Correlation Measurements,” Optics and Lasers in Engineering 46: 746–757 (2008).
Lou, P.F., Chao, Y.J., and Sutton, M.A., “Application of Stereo Vision to 3-D Deformation Analysis in Fracture Experiments,” Optical Engineering 33: 981–990 (1994).
Lou, P.F., Chao, Y.J., Sutton, M.A., and Peters, W.H., “Accurate Measurement of Three-Dimensional Deformations in Deformable and Rigid Bodies Using Computer Vision,” Experimental Mechanics 33: 123–132 (1993).
Faugeras, O., Three-Dimensional Computer Vision: A Geometric Viewpoint, MIT Press, London, UK. (1993).
Helm, J.D., McNeill, S.R., and Sutton, M.A., “Improved 3-D Image Correlation for Surface Displacement Measurement,” Optical Engineering 35: 1911–1920 (1996).
Langford, M.J., Fox, A., and Smith, R.S., Langford’s Basic Photography, 9th Edition, Focal Press, New York, NY (2010).
ARAMIS. v.6.0.2 User’s Manual Revision A. GOM mbH, Braunschweig (2007).
U.S. Department of Transportation, Metallic Materials Properties Development and Standardization, Office of Aviation Research, Washington, D.C. (2003).
Saouma, V.E., Introduction to Continuum Mechanics and Elements of Elasticity/Structural Mechanics, Department of Civil Environmental and Architectural Engineering, University of Colorado, Boulder, CO (1998).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Jin, T.L., Lee, S.H. & Goo, N.S. Thermal Stress Measurement of a Double Ring Structure Using Digital Image Correlation Method. Exp Tech 40, 195–205 (2016). https://doi.org/10.1007/s40799-016-0022-z
Published:
Issue Date:
DOI: https://doi.org/10.1007/s40799-016-0022-z