Papers
Topics
Authors
Recent
Search
2000 character limit reached

Mathematical Foundations of Interlocking Assemblies

Published 27 May 2024 in math.CO | (2405.17644v1)

Abstract: The study of interlocking assemblies is an emerging field with applications in various disciplines. However, to this day, the mathematical treatment of these assemblies has been sparse. In this work, we develop a comprehensive mathematical theory for interlocking assemblies, providing a precise definition and a method for proving the interlocking property based on infinitesimal motions. We consider assemblies with crystallographic symmetries and verify interlocking properties for such assemblies. Our analysis includes the development of an infinite polytope with crystallographic symmetries to ensure that the interlocking property holds. For a certain block, called the RhomBlock, that can be assembled in numerous ways, characterised by the combinatorial theory of lozenges, we rigorously prove the interlocking property. By conclusively showing that any assembly of the RhomBlock is interlocking, we provide a robust framework for further exploration and application of interlocking assemblies.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (23)
  1. Generalized abeille tiles: Topologically interlocked space-filling shapes generated based on fabric symmetries. Computers & Graphics, 89:156–166, 2020.
  2. Topological Interlocking, Truchet Tiles and Self-Assemblies: A Construction-Kit for Civil Engineering Design. In Judy Holdener, Eve Torrence, Chamberlain Fong, and Katherine Seaton, editors, Proceedings of Bridges 2023: Mathematics, Art, Music, Architecture, Culture, pages 61–68, Phoenix, Arizona, 2023. Tessellations Publishing.
  3. Interlocking of convex polyhedra: towards a geometric theory of fragmented solids. Moscow Mathematical Journal, 10, 01 2009.
  4. Computational design of high-level interlocking puzzles. ACM Trans. Graph., 41(4), jul 2022.
  5. Harmonic Analysis for Engineers and Applied Scientists: Updated and Expanded Edition. Dover Books on Mathematics. Dover Publications, 2016.
  6. A new concept in design of materials and structures: assemblies of interlocked tetrahedron-shaped elements. Scripta Materialia, 44(12):2689–2694, 2001.
  7. Topological interlocking of platonic solids: A way to new materials and structures. Philosophical Magazine Letters, 83(3):197–203, 2003.
  8. The principle of topological interlocking in extraterrestrial construction. Acta Astronautica, 57(1):10–21, 2005.
  9. Design of architectured materials based on topological and geometrical interlocking. Journal of Materials Research and Technology, 15:1165–1178, 2021.
  10. Topological Interlocking Blocks for Architecture: From Flat to Curved Morphologies. In Yuri Estrin, Yves Bréchet, John Dunlop, and Peter Fratzl, editors, Architectured Materials in Nature and Engineering: Archimats, pages 423–445. Springer International Publishing, Cham, 2019.
  11. Michael Glickman. The G-block system of vertically interlocking paving. In Second International Conference on Concrete Block Paving, pages 10–12, 1984.
  12. Tom Goertzen. Constructing Interlocking Assemblies with Crystallographic Symmetries. arXiv e-prints, May 2024. arXiv:2405.15080.
  13. Topological interlocking via symmetry. In Proc. of the 6th fib International Congress 2022, page 1235 – 1244. Novus Press, Oslo, Norway, 2022.
  14. Branko Grünbaum. Convex polytopes, volume 221 of Graduate Texts in Mathematics. Springer-Verlag, New York, second edition, 2003. Prepared and with a preface by Volker Kaibel, Victor Klee and Günter M. Ziegler.
  15. IUCr. International Tables for Crystallography, Volume A: Space Group Symmetry. International Tables for Crystallography. Kluwer Academic Publishers, Dordrecht, Boston, London, 5. revised edition edition, 2002.
  16. SciPy: Open source scientific tools for Python, 2001–2024.
  17. Foundations of differential geometry. Vol. I. Wiley Classics Library. John Wiley & Sons, Inc., New York, 1996. Reprint of the 1963 original, A Wiley-Interscience Publication.
  18. Design of Flat Vaults with Topological Interlocking Solids. Nexus Network Journal, 23(3):607–627, September 2021.
  19. Maciej Piekarski. Floor Slabs Made from Topologically Interlocking Prefabs of Small Size. Buildings, 10(4), 2020.
  20. Modular Construction of Topological Interlocking Blocks—An Algebraic Approach for Resource-Efficient Carbon-Reinforced Concrete Structures. Buildings, 13(10), 2023.
  21. Ziqi Wang. Computational Analysis and Design of Structurally Stable Assemblies with Rigid Parts. PhD thesis, EPFL, 2021.
  22. Design and Structural Optimization of Topological Interlocking Assemblies. ACM Trans. Graph., 38(6), November 2019. Place: New York, NY, USA Publisher: Association for Computing Machinery.
  23. Randall H. Wilson. On Geometric Assembly Planning. PhD Thesis, Stanford University, Stanford, CA, USA, 1992.
Citations (1)
View on Semantic Scholar

Summary

No one has generated a summary of this paper yet.

Sign Up to Summarize

Paper to Video (Beta)

No one has generated a video about this paper yet.

Sign Up to Generate All Videos Subscribe on YouTube

Whiteboard

No one has generated a whiteboard explanation for this paper yet.

Sign Up to Generate

Open Problems

We haven't generated a list of open problems mentioned in this paper yet.

Generate Now

Continue Learning

We haven't generated follow-up questions for this paper yet.

Generate Now

Authors (1)

  1. Tom Goertzen 

Collections

Sign up for free to add this paper to one or more collections.

Sign Up

Tweets

Sign up for free to view the 1 tweet with 0 likes about this paper.

Sign Up for Free