On the equilibrium of funicular polyhedral frames and convex polyhedral force diagrams

This paper presents a three-dimensional extension of graphic statics using polyhedral form and force diagrams for the design of compression-only and tension-only spatial structures with externally applied loads. It explains the concept of 3D structural reciprocity based on Rankine's original proposition for the equilibrium of spatial frames. It provides a definition for polyhedral reciprocal form and force diagrams that allows including external forces and discusses their geometrical and topological characteristics. This paper furthermore provides a geometrical procedure for constructing a pair of reciprocal polyhedral diagrams from a given polyhedron representing either the form or force diagram of a structural system. Using this method, this paper furthermore suggests a design strategy for finding complex funicular spatial forms in pure compression (or tension), based on the construction of force diagrams through the aggregation of convex polyhedral cells. Finally, it discusses the effect of changes in the geometry of the force diagram on the geometry of the form diagram and the distribution of forces in it. Three-dimensional extension of graphic statics using polyhedral form and force diagrams.Defining the topological and geometrical relationships of 3D reciprocal diagrams.Design of compression and tension-only spatial structures with externally applied loads.Designing complex funicular spatial forms by aggregating convex force polyhedral cells.CAD implementation to manipulate the geometry of the force and explore its effects on the forms.

[1]  Corentin Fivet,et al.  Constraint-Based Graphic Statics : New paradigms of computer-aided structural equilibrium design , 2013 .

[2]  Luigi Cremona,et al.  Graphical Statics: Two Treatises on the Graphical Calculus and Reciprocal Figures in Graphical Statics , 2007 .

[3]  Baining Guo,et al.  Computing self-supporting surfaces by regular triangulation , 2013, ACM Trans. Graph..

[4]  A. Pirard,et al.  La statique graphique , 1967 .

[5]  Philippe Block,et al.  Interactive Vault Design , 2012 .

[6]  Walter Whiteley,et al.  Convex Polyhedra, Dirichlet Tessellations, and Spider Webs , 2013 .

[7]  Olga Sorkine-Hornung,et al.  Designing unreinforced masonry models , 2013, ACM Trans. Graph..

[8]  Philippe Block,et al.  GEOMETRY-BASED UNDERSTANDING OF STRUCTURES , 2012 .

[9]  A. F. Moebius Über eine besondere Art dualer Verhältnisse zwischen Figuren im Raume. , 1833 .

[10]  August Föppl Das Fachwerk im Raume , 1892 .

[11]  Philippe Block,et al.  Rethinking structural masonry: unreinforced, stone-cut shells , 2013 .

[12]  H. Helmholtz,et al.  Mathematical and Physical Papers , 1885, Nature.

[13]  James R. Munkres,et al.  Elements of algebraic topology , 1984 .

[14]  Karl Culmann,et al.  Die graphische Statik , 2014 .

[15]  Pierre Alliez,et al.  On the equilibrium of simplicial masonry structures , 2013, ACM Trans. Graph..

[16]  Johannes Wallner,et al.  Design of self-supporting surfaces , 2012, ACM Trans. Graph..

[17]  Mathieu Desbrun,et al.  HOT: Hodge-optimized triangulations , 2011, ACM Trans. Graph..

[18]  S. B.,et al.  Graphical Analysis: A Text-book on Graphic Statics , 1922, Nature.

[19]  Philippe Block,et al.  Equilibrium of Spatial Structures Using 3-D Reciprocal Diagrams , 2013 .

[20]  Philippe Block,et al.  THRUST NETWORK ANALYSIS : A NEW METHODOLOGY FOR THREE-DIMENSIONAL EQUILIBRIUM , 2007 .

[21]  Mathieu Desbrun,et al.  Weighted Triangulations for Geometry Processing , 2014, ACM Trans. Graph..

[22]  William John Macquorn Rankine,et al.  A manual of applied mechanics , 2022 .

[23]  C. Gauss,et al.  Theoria attractionis corporum sphaeroidicorum ellipticorum homogeneorum, methodo nova tractata , 1877 .

[24]  W. J. Macquorn Rankine,et al.  XVII. Principle of the equilibrium of polyhedral frames , 1864 .

[25]  J. Maxwell,et al.  I.—On Reciprocal Figures, Frames, and Diagrams of Forces , 1870, Transactions of the Royal Society of Edinburgh.

[26]  Bruce G. Baumgart A polyhedron representation for computer vision , 1975, AFIPS '75.

[27]  Lauren L. Beghini,et al.  Structural optimization using graphic statics , 2014 .