Orientation dependence in molecular dynamics simulations of shocked single crystals

Orientation dependence in molecular dynamics simulations of shocked single crystals

We use multimillion-atom molecular dynamics simulations to study shock wave propagation in fcc crystals. As shown recently, shock waves along the direction form intersecting stacking faults by slippage along 111 close-packed planes at sufficiently high shock strengths. We find even more interesting...

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Veröffentlicht in:Physical review letters 2000-06, Vol.84 (23), p.5351-5354
Hauptverfasser: Germann, TC, Holian, BL, Lomdahl, PS, Ravelo, R
Format: Artikel
Sprache:eng
Schlagworte:
COMPUTER CODES
FCC LATTICES
MATERIALS SCIENCE
MOLECULAR DYNAMICS METHOD
MONOCRYSTALS
PLASTICITY
SHOCK WAVES
SIMULATION
STACKING FAULTS
THEORETICAL DATA
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Zusammenfassung:We use multimillion-atom molecular dynamics simulations to study shock wave propagation in fcc crystals. As shown recently, shock waves along the direction form intersecting stacking faults by slippage along 111 close-packed planes at sufficiently high shock strengths. We find even more interesting behavior of shocks propagating in other low-index directions: for the case, an elastic precursor separates the shock front from the slipped (plastic) region. Shock waves along the direction generate a leading solitary wave train, followed (at sufficiently high shock speeds) by an elastic precursor, and then a region of complex plastic deformation.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.84.5351