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Sidney Yip
 Professor of Nuclear Engineering and Materials Science and Engineering
BS Mechanical Engineering,
University of Michigan, 1958
MS Nuclear
Engineering, University of Michigan, 1959
PhD Nuclear Engineering, University of Michigan, 1962
Room
24-208, 77 Mass. Ave., Cambridge, MA 02139
617-253-3809 (phone) fax: 617-258-8863
syip@mit.edu
Atomistic Simulation of Materials Group
Prof. Yip's research
interests in recent years have focused on the theory and simulation
of fundamental materials properties and behavior across different length
and time scales. He has specialized in developing molecular models to
elucidate the atomic-level mechanisms governing such phenomena as melting,
elastic instabilities, crack-tip plasticity, solid-state amorphization,
and grain-boundary structure and dynamics. His current projects are
mostly concerned with mechanical and thermal behavior of structural
and functional materials, specifically problems of strength, deformation
and toughness of metals and ceramics, dislocation core structure, interactions
and mobility, environmental effects of hydrolytic weakening, and studies
of electronic and thermal conductivities in nanostructures.
Selected Publications
W. Cai, V. Bulatov,
J. Justo, A. Argon, S. Yip, "Dislocation Mobility in Si: Bridging
Atomistic Theory and Experiments," Physical Review Letters
84, 3346 (2000).
S. Yip, M. F. Sylvester,
A. S. Argon, "Atomistic Investigation of Segmental Mobility in
Atactic Poly(propylene)," Computational and Theoretical Polymer
Science 10, 235 (2000).
M. de Koning, W.
Cai, A. Antonelli, S. Yip, "Efficient Free-Energy Calculations
by the Simulation of Nonequilibrium Processes," Computing in
Science and Engineering 2, 88 (2000).
W. Cai, M. de Koning,
V. V. Bulatov, S. Yip, "Minimizing Boundary Reflections in Coupled-Domain
Simulations," Physical Review Letters 85, 3213 (2000).
W. Cai, V. V. Bulatov,
J. Chang, J. Li, S. Yip, "Anisotropic Elastic Interactions of a
Periodic Dislocation Arragy," Physical Review Letters 86,
5727 (2001).
V. V. Bulatov, J.
F. Justo, W. Cai, S. Yip, A. S. Argon, T. Lenosky, M. de Koning, T.
Diaz de la Rubia, "Parameter-Free Modeling of Dislocation Motion:
The Case of Silicon," Philosophical Magazine 81,
1257 (2001).
J. Chang, W. Cai,
V. V. Bulatov, S. Yip, "Dislocation Motion in BCC Metals by Molecular
Dynamics," Materials Science and Engineering A, 309-310,160–163
(2001).
W. Cai, V. V. Bulatov,
S. Yip, A. S. Argon, "Kinetic Monte Carlo Modeling of Dislocation
Motion in BCC Metals," Materials Science and Engineering A,
309-310, 270–273 (2001).
S. Yip, J. Li, M.
Tang, J. Wang, "Mechanistic Aspects and Atomic-Level Consequences
of Elastic Instabilities in Homogeneous Crystals," Materials
Science and Engineering A 371, 236 (2001).
J. Li, W. Cai, J.
Chang, S. Yip, "Commentary on Atomistic Simulations of Materials
Strength and Deformation: Prospects for Mechanistic Insights,"
in Materials Science for the 21st Century, Society of Materials
Science, Japan, 2001, vol. A, p. 220–233.
A. George and S.
Yip, "Preface to the Viewpoint Set on: Dislocation Mobility in
Silicon," Scripta Materialia 45, 1233 (2001).
M. de Koning, A.
Antonelli, S. Yip, "Single-Simulation Determination of Phase Boundaries:
A Dynamic Clausius-Clapeyron Integration Method," J. Chem. Phys.
115, 11025 (2001).
S. Yip and J.-P.
Boon, "Molecular Hydrodynamics," Encyclopedia of Physical
Science and Technology, 3rd ed. vol. 10 (Academic Press, New York,
2002), p. 141.
A. Romano, J. Li, S. Yip, "Atomistic Simulation of Matter
Under Stress: Crossover from Hard to Soft Materials,"
Physica A 304, 11 (2002).
DMSE Teaching Involvements
Spring 2007 3.021 Modelling and Simulation
In July 2006, Prof. Yip and his colleagues published work on solitons, as reported in The Engineer Online. Prof. Yip's work on artificial muscles was reported
in Tech
Talk. Technology Insider reported on his research on the underlying science of materials, or multiscale materials modeling, using computer simulations (March 2006). |
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