Ramsden, StuartRobins, VanessaHyde, Stephen2015-12-080108-7673http://hdl.handle.net/1885/35857We present a method for geometric construction of periodic three-dimensional Euclidean nets by projecting two-dimensional hyperbolic tilings onto a family of triply periodic minimal surfaces (TPMSs). Our techniques extend the combinatorial tiling theory of Dress, Huson & Delgado-Friedrichs to enumerate simple reticulations of these TPMSs. We include a taxonomy of all networks arising from kaleidoscopic hyperbolic tilings with up to two distinct tile types (and their duals, with two distinct vertices), mapped to three related TPMSs, namely Schwarz's primitive (P) and diamond (D) surfaces, and Schoen's gyroid (G).Keywords: Kaleidoscopic hyperbolic tilings; Three-dimensional Euclidean nets; Triply periodic minimal surfaces; Two-dimensional hyperbolic tilingsThree-dimensional Euclidean nets from two-dimensional hyperbolic tilings: kaleidoscopic examples200910.1107/S01087673080405922016-02-24