Circle Packing Approach to Modeling van der Waals Forces
Circle Packing Approach to Modeling van der Waals Forces
Circle Packing Approach to Modeling van der Waals Forces
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
Geometric <strong>Modeling</strong> of a Cylindrical<br />
Part using <strong>Circle</strong> <strong>Packing</strong><br />
�5. F vdwcyl = n*F vdw<br />
�6. Compare result <strong>to</strong> reference model (Figure V).<br />
y<br />
D<br />
z x<br />
Fvdw =<br />
lenght<br />
�7. Pack more spheres in<strong>to</strong> cross section <strong>to</strong> obtain an<br />
optimal solution and then repeat steps 1 – 6.<br />
1<br />
2<br />
Ad<br />
16z<br />
Figure V. Van <strong>der</strong> <strong>Waals</strong> model of cylin<strong>der</strong>-flat plane.<br />
2