Modeling of dendrite growth from undercooled nickel melt: sharp interface model versus enthalpy method
- Submitting institution
-
University of Greenwich
- Unit of assessment
- 12 - Engineering
- Output identifier
- 26692
- Type
- D - Journal article
- DOI
-
10.1088/1361-648X/ab6aea
- Title of journal
- Journal of Physics: Condensed Matter
- Article number
- 194002
- First page
- -
- Volume
- 32
- Issue
- 19
- ISSN
- 0953-8984
- Open access status
- Compliant
- Month of publication
- -
- Year of publication
- 2020
- URL
-
-
- Supplementary information
-
-
- Request cross-referral to
- -
- Output has been delayed by COVID-19
- No
- COVID-19 affected output statement
- -
- Forensic science
- No
- Criminology
- No
- Interdisciplinary
- No
- Number of additional authors
-
4
- Research group(s)
-
-
- Proposed double-weighted
- No
- Reserve for an output with double weighting
- No
- Additional information
- UK, Russian, German and French collaboration demonstrating that enthalpy-based microstructure simulation can accurately predict growth dynamics across a wide range of undercooled solidification. Led to an invited paper in JOM considering convective effects and proved an excellent match to the latest analytic theories. This fundamental study paves the way for further understanding of alloys and with the aid of parallelisation, the model competes favourably with phase-field simulations encompassing entire droplet solidification at the microstructure scale to investigate surface interactions.
- Author contribution statement
- -
- Non-English
- No
- English abstract
- -
