This readme file was generated on 2024-11-10 by John. E. Dolbow ------------------- GENERAL INFORMATION ------------------- Title of Dataset: Data from: Classical variational phase-field models cannot predict fracture nucleation Author Contact Information (Name, Institution, Email, ORCID) Principal Investigator: John Dolbow Institution: Duke University Email: jdolbow@duke.edu ORCID: 0000-0002-6250-2183 Associate or Co-investigator: Oscar Lopez-Pamies Institution: University of Illinois Email: pamies@illinois.edu ORCID: 0000-0003-1661-5598 *Date of data collection: 2024-11-10 *Funding and grant numbers: NSF, CMMI–2132528 and CMMI-2132551. -------------------- DATA & FILE OVERVIEW -------------------- This repository contains the data found in the plots for all results presented in the paper. The results consist of x-y plots, and the data are contained within a single spreadsheet. Each of the tabs of the spreadsheet are labeled corresponding to the associated figure number in the paper. In each tab, the top of each column is labeled to identify the data. File list: all-figures-data.xlsx Description of data in each tab: Fig 1: principal stress s1 (MPa), principal stress s2 (MPa) Fig 2: principal stress s1 (MPa), principal stress s2 (MPa), principal stress s1 (MPa), principal stress s2 (MPa) Fig 3: Initial crack size A (mm), global stress Sc (MPa), Initial crack size A (mm), global stress Sc (MPa), Fig 5: principal stress s1 (MPa), principal stress s2 (MPa), principal stress s1 (MPa), principal stress s2 (MPa) Fig 6: principal stress s1 (MPa), principal stress s2 (MPa), principal stress s1 (MPa), principal stress s2 (MPa) Fig 7: Lambda_ts (dimensionless), tensile strength s_ts (MPa) ------------------------- USE and ACCESS INFORMATION -------------------------- Data License: CC0 Other Rights Information: none To cite the data: Dolbow, J. & Lopez-Pamies, O. (2024). Data from: Classical variational phase-field models cannot predict fracture nucleation. Duke Research Data Repository. https://doi.org/10.7924/r4v128350