lammps-script
There are 12 repositories under lammps-script topic.
lammpstutorials/lammpstutorials.github.io
LAMMPS tutorials for both beginners and advanced users
lammpstutorials/lammpstutorials-inputs
LAMMPS input from lammpstutorials.github.io
simongravelle/atb2lammps
Convert files from the ATB repository to LAMMPS format
Riaz-404/LAMMPS-HEA-tensile-script
LAMMPS input script for uniaxial tensile simulation of High Entropy Alloy
ovitrac/Pizza3
🍕 Toolkit for multiscale modeling with LAMMPS in Python 3.x. It integrates with LAMMPS-GUI and leverages Large Language Models for rapid prototyping.
polyu-kyfung/lammps-nanocutting-SiC_template_tool-xLr0c10_EA.tersoff_lmp20140808
A LAMMPS template for the molecular dynamics simulation of nanometric cutting of 3C-SiC using a diamond tool with a zero rake angle and a clearance angle of 10°
praveenhiremath/Cu_Nanowire_tensile_test
Response of copper nanowire under tensile loading (Using C++ LAMMPS package)
lammpstutorials/lammpstutorials-avatars
A repository for the LAMMPS tutorials avatars and logos
polyu-kyfung/lammps-nanocutting-SiC_template_tool-xLr15c10_EA.tersoff_lmp20140808
A LAMMPS template for the molecular dynamics simulation of nanometric cutting of 3C-SiC using a diamond tool with a negative rake angle of 15° and a clearance angle of 10°
polyu-kyfung/lammps-nanocutting-SiC_template_tool-xLr25c10_EA.tersoff_lmp20140808
A LAMMPS template for the molecular dynamics simulation of nanometric cutting of 3C-SiC using a diamond tool with a negative rake angle of 25° and a clearance angle of 10°
polyu-kyfung/lammps-nanocutting-SiC_template_tool-xLr30c10_EA.tersoff_lmp20140808
A LAMMPS template for the molecular dynamics simulation of nanometric cutting of 3C-SiC using a diamond tool with a negative rake angle of 30° and a clearance angle of 10°
polyu-kyfung/x-lammps-nanocutting-SiC_results_tool-xLr15c10-x101y010_speed-3.0_EA.tersoff_lmp20140808
Note: This model is incorrect or does not function as intended 🆖. A molecular dynamics (MD) simulation of the nanometric cutting process of 3C-SiC using a diamond tool, with crystallographic orientations x[101] and y[010]