Software projects

Main author / one of the main authors

  1. PyDislocDyn (2017–present) — a suite of python programs designed to perform various calculations for basic research in dislocation dynamics in metals with simple crystal symmetries in the continuum limit. (A pdf-copy of the manual is available here.)
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  2. PyPTkinetics (2023–present) — This basic research code computes the time-dependent phase transition between two solid crystalline phases under dynamic conditions.
  3. HPB Strengthmodel (2019–2025) — Python-implementation of the Hunter-Preston strength model, but with generalized drag coefficient B. For details, see Blaschke, Hunter, Preston, Int. J. Plast. 131 (2020) 102750.
  4. LEAD (2022–2023) — LEArning Damage is a suite of scripts to enable rapid estimation of model parameters for damage models for ductile materials using machine learning. For details, see Blaschke, Nguyen, Nitol, et al., Comput. Mater. Sci. 229 (2023) 112382.
  5. GitSync (2009–2013) — a shell script designed to simplify the usage of the version control system 'git',
  6. VectorAlgebra (2009–2012) — a Mathematica package implementing various functions for simple vector calculations in d-dimensional spaces with constant metrics.

Contributed to:

  1. Phase Field Dislocation Dynamics (PFDD) version 2.x — A phase field code for investigating deformations and other properties of nanoscale materials, such as metals and alloys. For details on my contributions, see Blaschke, Miller, Mier, et al., J. Appl. Phys. 132 (2022) 045105 and Blaschke, Carpenter, Hunter, Materials 17 (2024) 5049.
  2. Impala — Python tools for modular Bayesian model calibration.

 
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