Circle Packing Approach to Modeling van der Waals Forces

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Results van der Waals 100 10 1 0.1 0.01 0.001 0.0001 Packed Cylinder Models 1 2 3 4 5 6 7 8 9 10 Distance Z from Flat Plane N = 7 N = 61 N = 100 N = 150 N = 200 N = 250 N = 300 N = 350 N = 400 N = 450 N = 500 Reference Model Figure VI. Van der Waals “sphere packed” finite model of cylinder-flat plane compared to reference model, where N represents the number of spheres packed into a given cross-section. y x
Conclusions & Future Direction: 1. Optimal sphere packing solution shows variation when compared to reference model. At best optimal solution only approximates reference model. 2. Future: model other van der Waals models such as sphere to sphere interactions using sphere packing . Desirable to establish a comparison to other known van der Waals solutions.
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 and 8: Geometric Modeling of a Cylindrical
Page 9: Geometric Modeling of a Cylindrical
Page 13: Acknowledgements � Dr. J. Cecil.

Circle Packing Approach to Modeling van der Waals Forces

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