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Beilstein J. Nanotechnol. 2017, 8, 2283–2295, doi:10.3762/bjnano.8.228
Figure 1: Physical model diagrams of (a) transverse grain boundary indentation, (b) vertical grain boundary i...
Figure 2: The slip vector diagrams of the transverse grain boundary with the different angles of (a) θ = 10°,...
Figure 3: The slip vector diagrams of the transverse grain boundary with the different angles of (a) θ = 10°,...
Figure 4: The atomic flow diagrams of the transverse grain boundary with the different angles of (a) θ = 10°,...
Figure 5: The slip vector diagrams of the transverse grain boundary with the (a) 3 layers, (b) 4 layers, and ...
Figure 6: The slip vector diagrams of the transverse grain boundary with the (a) 3 layers, (b) 4 layers, and ...
Figure 7: The atomic flow diagrams of the transverse grain boundary with the (a) 3 layers, (b) 4 layers, and ...
Figure 8: The normal force versus time for the transverse grain boundary with 3, 4 and 6 layers for an indent...
Figure 9: The slip vector diagrams of the vertical grain boundary with the different angles of (a) θ = 10°, (...
Figure 10: The slip vector diagrams of the vertical grain boundary with the different angles of (a) θ = 10°, (...
Figure 11: The von Mises stress diagrams of the vertical grain boundary with the different angles of (a) θ = 1...
Figure 12: The normal force versus time for the vertical grain boundary with different angles of θ = 10–40° fo...
Figure 13: The slip vector diagrams of the vertical grain boundary with the different angles of (a) θ = 10°, (...
Figure 14: The atomic flow diagrams of the vertical grain boundary with the different angles of (a) θ = 10°, (...
Figure 15: The tangential force versus time for the vertical grain boundary at different angles θ = 10–40° for...
Figure 16: The average resistance coefficient versus the different angles for a scratch of 5 nm.