[HTML][HTML] Optimising shape analysis to quantify volcanic ash morphology
Accurate measurements of volcanic ash morphology are critical to improving both our
understanding of fragmentation processes and our ability to predict particle behaviour. In …
understanding of fragmentation processes and our ability to predict particle behaviour. In …
Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - GeoResJ, 2015 - infona.pl
Accurate measurements of volcanic ash morphology are critical to improving both our
understanding of fragmentation processes and our ability to predict particle behaviour. In …
understanding of fragmentation processes and our ability to predict particle behaviour. In …
[引用][C] Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - GeoResJ, 2015 - cir.nii.ac.jp
[PDF][PDF] Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - 2015 - researchgate.net
abstract Accurate measurements of volcanic ash morphology are critical to improving both
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - GeoResJ, 2015 - ui.adsabs.harvard.edu
Accurate measurements of volcanic ash morphology are critical to improving both our
understanding of fragmentation processes and our ability to predict particle behaviour. In …
understanding of fragmentation processes and our ability to predict particle behaviour. In …
[PDF][PDF] Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - 2015 - core.ac.uk
abstract Accurate measurements of volcanic ash morphology are critical to improving both
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
[PDF][PDF] Liu, E., Cashman, K., & Rust, A.(2015). Optimising shape analysis to quantify volcanic ash morphology. GeoResJ, 8, 14–30. DOI
2015 - scholar.archive.org
abstract Accurate measurements of volcanic ash morphology are critical to improving both
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
[PDF][PDF] Optimising shape analysis to quantify volcanic ash morphology
EJ Liu, KV Cashman, AC Rust - 2015 - cyberleninka.org
abstract Accurate measurements of volcanic ash morphology are critical to improving both
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
Optimising shape analysis to quantify volcanic ash morphology
E Liu, K Cashman, A Rust - GeoResJ, 2015 - research-information.bris.ac.uk
Accurate measurements of volcanic ash morphology are critical to improving both our
understanding of fragmentation processes and our ability to predict particle behaviour. In …
understanding of fragmentation processes and our ability to predict particle behaviour. In …
[PDF][PDF] Liu, E., Cashman, K., & Rust, A.(2015). Optimising shape analysis to quantify volcanic ash morphology. GeoResJ, 8, 14–30. DOI
2015 - core.ac.uk
abstract Accurate measurements of volcanic ash morphology are critical to improving both
our understanding of fragmentation processes and our ability to predict particle behaviour. In …
our understanding of fragmentation processes and our ability to predict particle behaviour. In …