John Turner Computational Engineering Program Director Contact TURNERJA@ORNL.GOV All Publications Temperature and strain rate dependent behavior of polymer separator for Li-ion batteries Strain distribution and failure mode of polymer separators for Li-ion batteries under biaxial loading Localized melt-scan strategy for site specific control of grain size and primary dendrite arm spacing in electron beam additive manufacturing Fragmentation of Copper Current Collectors of Li-ion Batteries Post Spherical Indentation Building digital twins of 3D printing machines Mechanical behavior and failure mechanisms of Li-ion battery separators Progressive mechanical indentation of large-format Li-ion cells-... Finite Element Modeling of Indentation of Li-ion Pouch Cell: Effect of Material Homogenization on Prediction of Internal Short Circuit The Virtual Envionment for Reactor Applications (VERA): Design and Architecture (JCP)... Numerical modeling of heat transfer and study of the influence of input parameters on tailoring the Grain Morphology of IN718... A Three-Dimensional Meso-Macroscopic Model for Li-Ion Intercalation Batteries... Progress in Modeling and Simulation of Batteries... Accelerated Application Development: The ORNL Titan Experience Multiscale modeling and characterization for performance and safety of lithium-ion batteries... An approach for coupled-code multiphysics core simulation from a common input A new open computational framework for highly-resolved coupled three-dimensional multiphysics simulations of Li-ion cells Electrically Engaged UnduLation (EEL) Marine Energy System Thermo4PFM: Facilitating Phase-field simulations of alloys with thermodynamic driving forces Computational Requirements in Clean Energy and Manufacturing: Summary report of the virtual workshop held on June 28-29, 2021 An OpenMP GPU-offload implementation of a non-equilibrium solidification cellular automata model for additive manufacturing Accelerating Battery Simulations by Using High Performance Computing and Opportunities with Machine Learning Real-World Experiences Adopting Workflows at Exascale on the ExaAM Project CTF: A modernized, production-level, thermal hydraulic solver for the solution of industry-relevant challenge problems in pre... ExaAM: Metal additive manufacturing simulation at the fidelity of the microstructure... Toward multiscale simulations of tailored microstructure formation in metal additive manufacturing... Pagination Current page 1 Page 2 Next page ›› Last page Last » Key Links Curriculum Vitae ORCID my YouTube channel (mostly music, not science/computing) Organizations Computing and Computational Sciences Directorate User Facilities Manufacturing Demonstration Facility National Transportation Research Center Oak Ridge Leadership Computing Facility
Research Highlight Understanding uncertainty in microstructure evolution and constitutive properties in additive process modeling
Research Highlight ExaCA: a performance portable exascale cellular automata application for alloy solidification modeling
