Fracture Modeling

  1. Atomistic Simulation of Rapid Compression of Fractured Silicon Carbide,
    Antonino Romano, Ju Li and Sidney Yip, Journal of Nuclear Materials 352 (2006) 22-28.

  2. Atomistic characterization of three-dimensional lattice trapping barriers to brittle fracture,
    Ting Zhu, Ju Li and Sidney Yip, Proceedings of the Royal Society A 462 (2006) 1741-1761.

  3. Nanomechanics of Crack Front Mobility,
    Ting Zhu, Ju Li and Sidney Yip, Journal of Applied Mechanics 72 (2005) 932.

  4. Atomistic Configurations and Energetics of Crack Extension in Silicon,
    Ting Zhu, Ju Li and Sidney Yip, Phys. Rev. Lett. 93 (2004) 205504.

  5. Atomistic Study of Dislocation Loop Emission from a Crack Tip,
    Ting Zhu, Ju Li and Sidney Yip, Phys. Rev. Lett. 93 (2004) 025503.

  6. Crack-tip dislocation nanostructures in dynamical fracture of fcc metals: A molecular dynamics study,
    Hajime Kimizuka, Hideo Kaburaki, Futoshi Shimizu and Ju Li, Journal of Computer-Aided Materials Design 10 (2003) 143-154.

  7. Multiscale modeling of defect nucleation and reaction: bulk to nanostructures,
    Jinpeng Chang, Ting Zhu, Ju Li, Xi Lin, Xiao-Feng Qian and Sidney Yip, IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength, eds. H. Kitagawa and Y. Shibutani, Solid Mechanics and Its Applications 115 (Kluwer, Dordrecht, 2004), pp. 223-233. ISBN: 1402020376.

  8. Atomistic Measures of Materials Strength and Deformation,
    Ju Li, Wei Cai, Jinpeng Chang and Sidney Yip, Computational Materials Science, ed. C.R.A. Catlow and E.A. Kotomin (IOS Press, Amsterdam, 2003), pp. 359-387. NATO Science Series, Series III: Computer and Systems Sciences 187. ISBN: 1586033352. From a set of lectures Sidney Yip gave at the NATO Advanced Study Institute on Computational Materials Science, September 9-22, 2001, Il Ciocco, Lucca, Italy.