Circle Packing Approach to Modeling van der Waals Forces

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Geometric Modeling of a Cylindrical Part using Circle Packing � 3. Circular pattern represents a thin disk of depth d, total van der Waals interaction is approximately F vdW . � 4. Define a cylindrical part of length L, where L can be some multiple of d. L = n*d. Solve for n. D F vdwcyl = n * F vdW x d d d L L = n * d Figure IV. Summation of sphere to flat plane van der Waals force interactions.. d d
Geometric Modeling of a Cylindrical Part using Circle Packing �5. F vdwcyl = n*F vdw �6. Compare result to reference model (Figure V). y D z x Fvdw = lenght �7. Pack more spheres into cross section to obtain an optimal solution and then repeat steps 1 – 6. 1 2 Ad 16z Figure V. Van der Waals model of cylinder-flat plane. 2
Page 1 and 2: Circle Packing Approach to Modeling
Page 3 and 4: Introduction �Microassembly �Pr
Page 5 and 6: Research Objective �Develop a fin
Page 7: Geometric Modeling of a Cylindrical
Page 11 and 12: Conclusions & Future Direction: 1.
Page 13: Acknowledgements � Dr. J. Cecil.

Circle Packing Approach to Modeling van der Waals Forces

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