Michael Barry Data-verified
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Researcher
faculty
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Biography and Research Information
OverviewAI-generated summary
Michael Barry's research interests encompass several distinct areas, as evidenced by his recent publications. He has investigated experimental assessments of short-duration contact exposures related to contact burn injuries, as well as the potential explosion hazards associated with HVAC equipment in lithium-ion battery energy storage systems. Another area of his work involves exploring endpoints for renal denervation procedures, including mapping the aorticorenal ganglion and studying stimulation responses. Barry has also contributed to research on the effect of valve closure time on water hammer and the influence of particle morphology on the angle of repose using discrete element method (DEM) simulations. His scholarly work includes 36 publications with 771 citations and an h-index of 7. Barry collaborates with fellow University of Arkansas at Fayetteville faculty members, including T. Matthew Evans, Jean Marcel de Almeida Espinoza, and C.S. Sandeep.
Metrics
- h-index: 7
- Publications: 35
- Citations: 787
Selected Publications
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Influence of Particle Morphology on Angle of Repose Derived from Hopper Flow Tests Using 3D DEM Simulations (2025)
Collaboration Network
Top Collaborators
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Renal Vein Electrical Impedance Mirrors Changes in Renal Blood Flow During Aorticorenal Ganglia Stimulation—Towards a Clinical Procedural Endpoint for Renal Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- Aorticorenal Ganglion Stimulation Responses Guided Microwave Renal Denervation Leads to More Consistent Denervation
- Towards an Endpoint for Renal Denervation: Mapping the Aorticorenal Ganglion
- The Effect of Valve Closure Time on Water Hammer
- The Effect of Valve Closure Time on Water Hammer
- The Effect of Valve Closure Time on Water Hammer
- The Effect of Valve Closure Time on Water Hammer
- Contact Burn Injuries: Experimental Assessments of Short Duration Contact Exposures
- Contact Burn Injuries: Experimental Assessments of Short Duration Contact Exposures
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