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Pressure-dependent grain dissolution using discrete element simulations
Minsu Cha, Carlos Santamarina
Energy Resources and Petroleum Engineering
Ali I. Al-Naimi Petroleum Engineering Research Center
Physical Sciences and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Scopus citations
Overview
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Dive into the research topics of 'Pressure-dependent grain dissolution using discrete element simulations'. Together they form a unique fingerprint.
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Engineering
Boundary Condition
100%
Contact Force
33%
Creep
33%
Discrete Element
100%
Early Stage
33%
Element Method
33%
Horizontal Stress
33%
Lateral Strain
66%
Lateral Stress
33%
Normal Force
33%
Porosity
100%
Shear Band
100%
Shear Localization
33%
Surrounding Soil
33%
Transients
33%
Earth and Planetary Sciences
Boundary Condition
100%
Discrete Element Method
33%
Grain Size
33%
Lacustrine Deposit
33%
Marine Sediment
33%
Mineral Dissolution
33%
Porosity
100%
Pressure Solution
100%
Shear Band
100%
Tectonics
33%
Material Science
Contact Condition
33%
Creep
33%
Discrete Element Method
33%
Grain Size
33%
Interparticle Force
33%
Shear Band
100%
Keyphrases
Particle Grading
33%
Sediment Deposits
33%
Soil Wedge
33%
Solution-precipitation
33%
Tectonic Origin
33%
Uniform Grain Size
33%