Tags: computational materials science

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Computational materials science is the application of computational methods alone or in conjunction with experimental techniques to discover new materials and investigate existing materials such as: metals, ceramics, composites, semiconductors, nanostructures, 2D materials, metamaterials, polymers, liquid crystals, surfactants, emulsions, polymer nanocomposites, nanocrystal superlattices and nanoparticles.

Downloads (1-3 of 3)

  1. AIDA: A tool for exhaustive enumeration of solutions to the quantized Frank-Bilby equation

    Downloads | 08 Jan 2018 | Contributor(s):: Ali Sangghaleh, Michael J. Demkowicz

    We present a tool called Arrangement of Interface Dislocation Arrays (AIDA) for enumerating all dislocation networks that satisfy the quantized Frank-Bilby equation for any interface between cubic crystals with a single-atom basis, i.e. FCC/FCC, BCC/BCC, and FCC/BCC interfaces. The set of...

  2. Introduction to Molecular Dynamics Showcase

    Downloads | 13 Feb 2017 | Contributor(s):: Chen-Yu Li, Karl Steven Decker (editor), Aleksei Aksimentiev

    In this tutorial, we will demonstrate how to use the MD showcase builder tool to create a showcase. We will start from the simplest example – creating a showcase from a PDB file – and move on to more complicated examples. We will also cover how to add a description, change...

  3. Polymatic: A Simulated Polymerization Algorithm

    Downloads | 26 Mar 2013 | Contributor(s):: Lauren Abbott, Coray Colina

    Polymatic is a set of codes for structure generation of amorphous polymers by a simulated polymerization algorithm. The main task of Polymatic is to perform polymerization steps within a system based on a number of defined bonding criteria. It works in conjunction with a simulation package to...