De-la-mo De-la-mo (De-Lamination-Modeler) is a system for constructing layer-by-layer finite element models or sub-models of composite materials. It is designed to be able to model curved surfaces as well as the presence of delamination, fiber breakage, and/or matrix cracking. You build the De-La-Mo model by specifying a set of manufacturing instructions – creation of a mold, creation of a layer over that mold, creation of additional layer(s), bonding of layers, meshing, etc. De-la-mo then outputs a CAD model and script for creating the finite element model. De-la-mo can be downloaded from https://github.com/idealab-isu/de-la-mo-v2/, and the documentation can be found at https://thermal.cnde.iastate.edu/de-la-mo/index.html. More information can be found in the ASC 2018 presentation slides. If De-la-mo is useful to you, please cite our papers: O. R. Bingol, B. Schiefelbein, R.J. Grandin, S. D. Holland, and A. Krishnamurthy, An integrated framework for solid modeling and structural analysis of layered composites with defects, Computer-Aided Design 106 1-12 (2019) https://doi.org/10.1016/j.cad.2018.07.006Primary requirementsABAQUS Finite element modeling toolPython interpreterRedBaron syntax tree library If you would like to use the old De-la-mo v1, you will also need: ACIS Solid modeling kernelCMake build toolC++ CompilerSWIG interface generator