Casey Jones Data-verified
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Biography and Research Information
OverviewAI-generated summary
Casey Jones's research focuses on the deterioration of cementitious materials, particularly concrete, due to calcium oxychloride formation. This work investigates methods to mitigate this process, including the use of alternative supplementary cementitious materials. Jones has examined the relationship between compressive strength, mass change, and the calcium oxychloride threshold in cementitious pastes incorporating fly ash. Further research has explored the impact of specimen size on concrete deterioration caused by calcium oxychloride and the effects of reducing cementitious content in bridge deck concrete. Jones has a publication record of 12 articles, with 136 citations, and an h-index of 6. Collaborations include shared publications with William Hale, Joey K. Parker, and Micah Hale, all from the University of Arkansas at Fayetteville.
Metrics
- h-index: 6
- Publications: 12
- Citations: 142
Selected Publications
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Investigating the Impact of Specimen Size Relating to Calcium Oxychloride Deterioration in Concrete Mixtures (2025)
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Using compressive strength and mass change to verify the calcium oxychloride threshold in cementitious pastes with fly ash (2021)
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Investigating the Impact of Reducing the Cementitious Content in Bridge Deck Concrete (2021)
Collaboration Network
Top Collaborators
- Mitigating calcium oxychloride formation in cementitious paste using alternative supplementary cementitious materials
- Using compressive strength and mass change to verify the calcium oxychloride threshold in cementitious pastes with fly ash
- Investigating concrete deterioration due to calcium oxychloride formation
- Investigating the Impact of Reducing the Cementitious Content in Bridge Deck Concrete
- Investigating the impact of specimen size relating to calcium oxychloride deterioration in concrete mixtures
- Mitigating calcium oxychloride formation in cementitious paste using alternative supplementary cementitious materials
- Using compressive strength and mass change to verify the calcium oxychloride threshold in cementitious pastes with fly ash
- Investigating concrete deterioration due to calcium oxychloride formation
- Investigating the Impact of Specimen Size Relating to Calcium Oxychloride Deterioration in Concrete Mixtures
- Investigating the impact of specimen size relating to calcium oxychloride deterioration in concrete mixtures
- Mitigating calcium oxychloride formation in cementitious paste using alternative supplementary cementitious materials
- Using compressive strength and mass change to verify the calcium oxychloride threshold in cementitious pastes with fly ash
- Investigating the Impact of Specimen Size Relating to Calcium Oxychloride Deterioration in Concrete Mixtures
- Investigating the impact of specimen size relating to calcium oxychloride deterioration in concrete mixtures
- Investigating the Impact of Reducing the Cementitious Content in Bridge Deck Concrete
- Using compressive strength and mass change to verify the calcium oxychloride threshold in cementitious pastes with fly ash
- Investigating the Impact of Specimen Size Relating to Calcium Oxychloride Deterioration in Concrete Mixtures