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Articles

Review of optical and X-ray techniques used at the Cavendish Laboratory

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Pages 317-325 | Published online: 18 Jul 2013

REFERENCES

  • Courtney-Pratt, J. S. A new method for the photographic study of fast transient phenomena. Research, 1948, 2, 287–293.
  • Courtney-Pratt, J. S. A new photographic method for studying fast transient phenomena. Proc. R. Soc. Lond. A, 1950, 204A, 27–29.
  • Courtney-Pratt, J. S. ‘1: A new method of photographing fast transient phenomena and its application toexplosive reactions. 2: The application of multiple beam interferometric techniques to the study of surface contour, friction and wear’, PhD thesis, University of Cambridge, Cambridge, UK, 1949.
  • Field, J. E. High speed photography: techniques and applications. Opt. Eng., 1982, 21, 709–717.
  • Field, J. E. High-speed photography. Contemp. Phys., 1983, 24, 439–459.
  • Field, J. E. High-speed photography: its history and application. Proc. R. Inst., 1989, 60, 195–222.
  • Field, J. E. Review: high-speed photography at the Cavendish Laboratory. Proc. SPIE, 1990, 1358, 2–17.
  • Field, J. E. In High Speed Photography and Photonics (Ed. S. F. Ray), 1997, pp. 301–314 (Focal Press, Oxford).
  • Kobayashi, A. S. (ed.). Handbook on Experimental Mechanics, 1987 (Prentice-Hall, Eaglewood Cliffs, NJ).
  • Kobayashi, A. S. (ed.). Handbook on Experimental Mechanics, 2nd revised edition, 1993 (VCH Publishers, New York).
  • Shukla, A., Sadd, M. H. and Mei, H. Experimental and computational modeling of wave propagation in antigranulocytes materials. Exp. Mech., 1990, 30, 377–381.
  • Wells, A. A. and Post, D. The dynamic stress distribution surrounding a running crack: a photoelastic analysis. Proc. Soc. Exp. Stress Anal., 1958, 16, (Part 1), 69–96.
  • Kalthoff, J. F. In Handbook on Experimental Mechanics (Ed. A. S. Kobayashi), 1987, pp. 430–500 (Prentice-Hall, Eaglewood Cliffs, NJ).
  • Manogg, P. ‘Anwendungen der Schattenoptik zur Untersuchung des Zerreissvorgags von Platten’, PhD thesis, University of Freiburg, Freiburg, Germany, 1964.
  • Theocaris, P. S. and Gdoutos, E. An optical method for determining opening-mode and edge sliding-mode stress-intensity factors. Trans. ASME, J. Appl. Mech., 1972, 39, 91–97.
  • Zehnder, A. T. and Rosakis, A. J. Dynamic fracture initiation and propagation in 4340 steel under impact loading. Int. J. Fract., 1990, 43, 271–285.
  • Arakawa, K., Drinnon, R. H., Kosai, M. and Kobayashi, A. S. Dynamic fracture analysis by moiré interferometry. Exp. Mech., 1991, 31, 306–309.
  • Deason, V. A., Epstein, J. S. and Abdallah, M. Dynamic diffraction moire: theory and applications. Opt. Lasers Eng., 1990, 12, 173–187.
  • Whitworth, M. B. and Huntley, J. M. Dynamic stress analysis by high-resolution reflection moire photography. Opt. Eng., 1994, 33, 924–931.
  • Huntley, J. M. Speckle photography fringe analysis: assessment of current algorithms. Appl. Opt., 1989, 28, 4316–4322.
  • Huntley, J. M. and Field, J. E. High speed laser speckle photography. 2: Rotating mirror camera control system and applications. Opt. Eng., 1994, 33, 1700–1707.
  • Sjödahl, M. and Benckert, L. R. Electronic speckle photography: analysis of an algorithm giving the displacement with subpixel accuracy. Appl. Opt., 1993, 32, 2278–2284.
  • Synnergren, P. and Sjodahl, M. A stereoscopic digital speckle photography system for 3-D displacement field measurements. Opt. Lasers Eng., 1999, 31, 425–443.
  • Sutton, M. A., Wolters, W. J., Peters, W. H., Ranson, W. F. and McNeill, S. R. Determination of displacements using an improved digital correlation method. Image Vision Comput., 1983, 1, 133–139.
  • Chu, T. C., Ranson, W. F., Sutton, M. A. and Peters, W. H. Applications of digital-image-correlation techniques to experimental mechanics. Exp. Mech., 1985, 25, 232–244.
  • Sjödahl, M. Electronic speckle photography: increased accuracy by nonintegral pixel shifting. Appl. Opt., 1994, 33, 6667–6673.
  • Huntley, J. M. and Benckert, L. R. Measurement of dynamic crack tip displacement field by speckle photography and interferometry. Opt. Lasers Eng., 1993, 19, 299–312.
  • Fallström, K.-E., Gustavsson, H., Molin, N.-E. and Wahlin, A. Transient bending waves in plates studied by hologram interferometry. Exp. Mech., 1989, 29, 378–387.
  • Tippur, H. V., Krishnaswamy, S. and Rosakis, A. J. A coherent gradient sensor for crack tip deformation measurements: analysis and experimental results. Int. J. Fract., 1991, 48, 193–204.
  • Goldrein, H. T., Palmer, S. J. P. and Huntley, J. M. Automated fine grid technique for measurement of large-strain deformation maps. Opt. Lasers Eng., 1995, 23, 305–318.
  • Burch, J. M. and Forno, C. High sensitivity moire grid technique for studying deformation in large objects. Opt. Eng., 1975, 14, 178–185.
  • Huntley, J. M., Whitworth, M. B., Field, J. E., Benckert, L. R., Sjödahl, M., Thesken, J. C. and Henriksson, A. In Impact and Dynamic Fracture of Polymers and Composites (Ed. J. G. Williams and A. Pavan), 1995, pp. 33–44 (Mechanical Engineering Publications Ltd, London).
  • Huntley, J. M., Palmer, S. J. P. and Field, J. E. Automatic speckle photographic fringe analysis: application to crack propagation and strength measurement. Proc. SPIE, 1987, 814, 153–160.
  • Asay, B. W., Laabs, G. W., Hesnon, B. F. and Funk, D. J. Speckle photography during dynamic impact of an energetic material using laser-induced fluorescence. J. Appl. Phys., 1997, 82, 1093–1099.
  • Bell, J. F. An experimental diffraction grating study of the quasi-static hypothesis of the SHPB experiment. J. Mech. Phys. Solids, 1966, 14, 309–327.
  • Chiang, F. P. and Asundi, A. White light speckle method of experimental strain analysis. Appl. Opt., 1979, 18, 409–411.
  • Chiang, F. P. A family of 2D and 3D experimental stress analysis techniques using laser speckle. Solid Mech. Arch., 1978, 3, 1–32.
  • Asundi, A. and Chiang, F. P. Measurement of large deformations using the white light speckle method. Mech. Res. Commun. , 1982, 9, 325–330.
  • Huntley, J. M., Whitworth, M. B., Palmer, S. J. P., Goldrein, H. T. and Field, J. E. Automatic speckle photography fringe analysis: application to electron microscopy and high speed photography. Proc. Int. Conf. on Hologram interferometry and speckle metrology, Baltimore, MD, USA, November 1990, Society for Experimental Mechanics, pp. 337–342.
  • Rae, P. J., Palmer, S. J. P., Goldrein, H. T., Lewis, A. L. and Field, J. E. White-light digital image cross correlation (DICC) analysis of the deformation of composite materials with random microstructure. Opt. Lasers Eng., 2004, 41, 635–648.
  • Grantham, S. G., Siviour, C. R., Proud, W. G., Walley, S. M. and Field, J. E. Speckle measurements of sample deformation in the split Hopkinson pressure bar. J. Phys. IV France, 2003, 110, 405–410.
  • Grantham, S. G., Siviour, C. R., Proud, W. G. and Field, J. E. High strain rate Brazilian testing using speckle metrology. Meas. Sci. Technol., 2004, 15, 1867–1870.
  • Synnergren, P., Goldrein, H. T. and Proud, W. G. Application of digital speckle photography to flash X- ray studies of internal deformation fields in impact experiments. Appl. Opt., 1999, 38, 4030–4036.
  • Grantham, S. G. and Field, J. E. Advances in digital speckle radiography. Proc. SPIE, 2002, 4777, 159–167.
  • Synnergren, P. and Goldrein, H. T. Dynamic measurements of internal three-dimensional displacement fields with digital speckle photography and flash X-rays. Appl. Opt., 1999, 38, 5956–5961.
  • Grantham, S. G., Goldrein, H. T., Proud, W. G. and Field, J. E. Digital speckle radiography: a new ballistic measurement technique. Imag. Sci. J., 2003, 51, 175–186.
  • Zehnder, A. T. and Rosakis, A. J. On the temperature distribution at the vicinity of dynamically propagating cracks in 4340 steel. J. Mech. Phys. Solids, 1991, 39, 385–415.
  • Walley, S. M., Proud, W. G., Rae, P. J. and Field, J. E. Comparison of two methods of measuring the rapid temperature rises in split Hopkinson bar specimens. Rev. Sci. Instrum., 2000, 71, 1766–1771.
  • Guduru, P. R., Rosakis, A. J. and Ravichandran, G. Dynamic shear bands: an investigation using high speed optical and infrared diagnostics. Mech. Mater., 2001, 33, 371–402.
  • Guduru, P. R., Ravichandran, G. and Rosakis, A. J. Observations of transient high temperature vortical microstructures in solids during adiabatic shear banding. Phys. Rev. E, 2001, 64E, 036128.

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