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Optics Express

Optics Express

  • Editor: J. H. Eberly
  • Vol. 2, Iss. 13 — Jun. 22, 1998
  • pp: 516–530

Optical interferometric technique for deformation analysis

Sanichiro Yoshida, Muchiar, I. Muhamad, R. Widiastuti, and A. Kusnowo  »View Author Affiliations


Optics Express, Vol. 2, Issue 13, pp. 516-530 (1998)
http://dx.doi.org/10.1364/OE.2.000516


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Abstract

We have developed a unique optical interferometric technique for deformation analysis and have applied it to tensile analyses of aluminum based samples. Using a recent theory of plastic deformation, this technique is capable of diagnosing whether the sample is close to a fracture and where the fracture will occur. It is also capable of diagnosing the current degree of stress concentration being developed in the sample. The theoretical basis of this method and some experimental results are presented.

© Optical Society of America

OCIS Codes
(120.4290) Instrumentation, measurement, and metrology : Nondestructive testing
(120.6160) Instrumentation, measurement, and metrology : Speckle interferometry

ToC Category:
Focus Issue: Optical methods for material inspection

History
Original Manuscript: April 8, 1998
Published: June 22, 1998

Citation
Sanichiro Yoshida, Muchiar Muhamad, R. Widiastuti, and A. Kusnowo, "Optical interferometric technique for deformation analysis," Opt. Express 2, 516-530 (1998)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-2-13-516


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References

  1. V. E. Panin, Physical mesomechanics and computer-aided design of materials, vol.1, (Nauka, Nobisobirsk, 1995) (Russian).
  2. O. J. Lokberg, "Recent Developments in Video Speckle Interferometry," in Speckle Metrology, R. S. Sirohi, ed. Optical Engineering, Vol. 38, (Marcel Dekker, New York, Basel, Hong Kong, 1993) pp. 157-194.
  3. Sanichiro Yoshida, Suprapedi, Rini Widiastuti, Marincan Pardede, Septriyanti Hutagalung, Julinda S. Marpaung, A. Faizal Muhardy and Anung Kusnowo, "Direct Observation of Developed Plastic Deformation and Its application to Nondestructive Testing," Jpn. J. Appl. Phys. 35, L854-L857 (1996). [CrossRef]
  4. S. Yoshida, Suprapedi, R. Widiastuti, Marincan, Seprtiyanti, Julinda, A. Faisal and A. Kusnowo, "A novel, optical nondestructive deformation analyzer based on electronic speckle-pattern interferometry and a new plastic deformation theory," in Abstract Proceedings of the VIII International Congress on Experimental Mechanics and Experimental/Numerical Mechanics in Electronic Packaging, (Society for Experimental Mechanics, Nashville, Tennessee, June 10 - 13, 1996) pp. 168-169.
  5. S. Yoshida, Muhiar, I. Muhamad, R. Widiastuti, B. Siahaan, M. Pardede and A. Kusnowo, "New optical interferometric technique for stress analysis" in Proc., 3rd International conference on modern practice in stress and vibration analysis, M. D. Gilchrist ed, (A. A. Balkema, Dublin, Ireland, September 3-5, 1997) pp. 361-363.
  6. S. Yoshida, I. Muhamad, M. Pardede, R. Widiastuti, Muchiar, B. Siahaan and A. Kusnowo, "Optical interferometry applied to analyze deformation and fracture of aluminum alloys," Theor. and Appl. Fracture Mechanics 27, 85-98 (1997). [CrossRef]
  7. V. E. Panin and V. S. Pleshanov, "Banded structure on meso- and macro-scale level in elastic polycrystal," in Physical Mesomechanics and Computer-aided Design of Materials, V. E. Panin, ed. Vol.1 (Nauka, Novosibirsk, 1995), pp. 241-248 (Russian).
  8. S. Toyooka, private communication, July, 1997.
  9. V. E. Panin, "Physical basis of mesomechanics of plastic deformation and fracture of solid-state materials," in Physical Mesomechanics and Computer-aided Design of Materials, V. E. Panin, ed. Vol.1, (Nauka, Novosibirsk, 1995), pp. 7-49 (Russian).
  10. V. E. Panin, "Physical mesomechanics of plastic deformation and experimental results obtained by optical methods," Oyobuturi 64, 888-894 (1995) (English).
  11. V. P. V. Makarov, "Dynamic theory of plasticity and fracture in structurally non-homogeneous media," in Physical Mesomechanics and Computer-aided Design of Materials, V. E. Panin, ed. Vol.1, (Nauka, Novosibirsk, 1995), pp. 78-101 (Russian).
  12. See for example, R. S. Sirohi, "Speckle methods in experimental mechanics," in Speckle Metrology, R. S. Sirohi, ed. Optical Engineering Vol. 38, (Marcel Dekker, New York, Basel, Hong Kong, 1993) p. 125.
  13. V. E. Panin, "Contemporary problems in physics of plasticity and durability of solid-state media," Structure level of plastic deformation and fracture, V. E. Panin, ed. (Nauka, Nobisobirsk 1990) p. 8 (Russian).

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