PUBLICATIONS

For a complete list of publications please visit the Google Scholar Profile gscholar

Recent Publications

Journal Articles

  • LePage, W.S., Daly, S.H. and Shaw, J.A., 2016. Cross Polarization for Improved Digital Image Correlation. Experimental Mechanics, 56(6), pp.969-985.
  • Shimkunas, R., Jian, Z., Hegyi, B., Shaw, J., Chiamvimonvat, N., Ginsburg, K., Bossuyt, J., Bers, D.M., Lam, K.S., Izu, L.T. and Chen-Izu, Y., 2016. Mechano-Chemo-Transduction in Rabbit Cardiomyocytes Mediated by no Signaling. Biophysical Journal, 110(3), p.600a.
  • Shaw, J.A., Wineman, A., Shimkunas, R., Izu, L. and Chen-Izu, Y., 2016. Mechanical Analysis of Single Myocyte Contraction in a 3D Viscoelastic Gel. Biophysical Journal, 110(3), p.101a.
  • Shaw, J.A., Dasharathi, K., Wineman, A.S. and Si, M.S., 2015. A simple model for myocardial changes in a failing heart. International Journal of Non-Linear Mechanics, 68, pp.132-145.
  • Jian, Z., Han, H., Zhang, T., Puglisi, J., Izu, L.T., Shaw, J.A., Onofiok, E., Erickson, J.R., Chen, Y.J., Horvath, B. and Shimkunas, R., 2014. Mechanochemotransduction during cardiomyocyte contraction is mediated by localized nitric oxide signaling. Science signaling, 7(317), p.ra27.
  • Reedlunn, B., Churchill, C.B., Nelson, E.E., Shaw, J.A. and Daly, S.H., 2014. Tension, compression, and bending of superelastic shape memory alloy tubes. Journal of the Mechanics and Physics of Solids, 63, pp.506-537.
  • Shaw, J., Izu, L. and Chen-Izu, Y., 2014. Mechanical Analysis of Single Myocyte Contraction in a 3D Elastic Matrix. Biophysical Journal, 106(2), p.565a.
  • Shimkunas, R., Jian, Z., Xiao, W., Li, Y., Chen, Y.J., Shaw, J., Chiamvimonvat, N., Izu, L.T., Lam, K.S. and Chen-Izu, Y., 2014. Mechano-Chemotransduction in the Single Cardiac Myocyte Contracting in 3D Elastic Gel. Biophysical Journal, 106(2), pp.117a-118a.
  • Jian, Z., Han, H., Zhang, T., Puglisi, J., Izu, L.T., Shaw, J., Chen, Y.J., Shimkunas, R., Chiamvimonvat, N., Bers, D.M. and Lam, K.S., 2014. Localized Nitric Oxide Signaling Mediates Cardiac Mechano-Chemotransduction. Biophysical Journal, 106(2), p.566a.
  • Shaw, J., Izu, L. and Chen-Izu, Y., 2014. Mechanical Analysis of Single Myocyte Contraction in a 3D Elastic Matrix. Biophysical Journal, 106(2), p.565a.
  • Reedlunn, B., Daly, S. and Shaw, J., 2013. Superelastic shape memory alloy cables: Part II–Subcomponent isothermal responses. International Journal of Solids and Structures, 50(20), pp.3027-3044.
  • Reedlunn, B., Daly, S. and Shaw, J., 2013. Superelastic shape memory alloy cables: Part I–isothermal tension experiments. International Journal of Solids and Structures, 50(20), pp.3009-3026.
  • Reedlunn, B., Daly, S., Hector, L., Zavattieri, P. and Shaw, J., 2013. Tips and Tricks for Characterizing Shape Memory Wire Part 5: Full‐Field Strain Measurement by Digital Image Correlation. Experimental Techniques, 37(3), pp.62-78.
  • Reedlunn, B., Shaw, J. and Daly, S., 2013. Pseudoelastic shape memory alloy cables. In Application of Imaging Techniques to Mechanics of Materials and Structures, Volume 4 (pp. 235-236). Springer New York.

Books Edited

  • Shaw, J. A. and Frecker, M., editors. Adaptive Structures and Material Systems, volume AD-67. American Society of Mechanical Engineers, Aerospace Division, New York, NY, 2002.
  • Main, J. and Shaw, J. A., editors. Adaptive Structures and Material Systems, volume AD-64. American Society of Mechanical Engineers, Aerospace Division, New York, NY, 2001.

Book Chapters

  • Shaw, J. A. and Elliott, R. S. Variational principles in structural mechanics. In R. Blockley and W. Shyy, editors, Encyclopedia of Aerospace Engineering, volume 3, chapter 122. John Wiley & Sons, NY, 2010.
  • Shaw, J. A., Churchill, C. B., Lagoudas, D. C., and Kumar, P. Shape Memory Alloys. In R. Blockley and W. Shyy, editors, Encyclopedia of Aerospace Engineering, volume 4, chapter 203. John Wiley & Sons, 2010.
  • Wineman, A. S., Jones, A. S., and Shaw, J. A. Life–Cycle and Durability Predictions of Elastomeric Components. In S. Saigal, K. P. Chong, S. T. Thynell, and H. Morgan, editors, Modeling and Simulation–based Life Cycle Engineering, pages 155–169. Taylor and Francis Group Ltd., London, 2002.

Patents

  • A. Browne, N. Johnson, P. Alexander, J. Shaw, C. Churchill, A. Keefe, G. Knight, G. Herrera, N. Mankame, R. Skurkis, and W. Brown, “Energy harvesting system,” U.S. Patent 2015/9 003 789, April 14, 2015.
  • A. L. Browne, N. L. Johnson, J. A. Shaw, C. B. Churchill, A. C. Keefe, G. P. McKnight, P. W. Alexander, G. A. Herrera, J. R. Yates, and J. W. Brown, “Shape memory alloy heat engines and energy harvesting systems,” U.S. Patent 8,844,281, September 30, 2014.
  • A. Browne, N. Johnson, N. Mankame, P. Alexander, J. Shaw, C. Churchill, A. Keefe, G. Herrera, J. Brown, and R. Skurkis, “Method of starting and operating a shape memory alloy heat engine,” U.S. Patent 8,800,283 B2, August 12, 2014.
  • J. Shaw and D. Grummon, “Manufacture of shape-memory alloy cellular materials and structures by transient-liquid reactive joining.” U.S. Patent 8,465,847 B2, June 18, 2013.
  • J. E. Luntz, J. A. Shaw, D. Brei, C. B. Churchill, A. Pathak, N. D. Mankame, A. Browne, N. L. Johnson, P. W. Alexander, X. Gao, and P. D. Zavattieri, “Apparatus for and method of conditioning shape memory alloy wire,” U.S. Patent 8,388,773, March 5, 2013.
  • N. Mankame, J. Shaw, B. Reedlunn, A. Browne, X. Gao, P. Alexander, J. Aase, N. Johnson, K. Strom, S. Naik, C. Namuduri, R. Stevenson, W. R. Rodgers, J. Ulicny, C. Henry, P. Krajewski, and R. Brammajyosula, “Shape memory alloy cables,” U.S. Patent 8,272,214, September 25, 2012.
  • J. Shaw and D. Grummon, “Manufacture of shape-memory alloy cellular materials and structures by transient-liquid reactive joining.” U.S. Patent 8,273,194, September 25, 2012.
  • Shaw, John A., and David S. Grummon. “Manufacture of shape memory alloy cellular materials and structures by transient-liquid reactive joining.” U.S. Patent No. 7,896,222. 1 Mar. 2011.