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McCartney's fundamental research in Geotechnical Engineering and Geomechanics is focused on characterization of the constitutive relationships governing interactions between thermal, hydraulic, and mechanical processes in unsaturated soils, buried structures, and geosynthetics. The specific goals of McCartney's research are to: (a) solve new problems encountered when using the subsurface and geotechnical engineering systems (foundations, retaining walls, landfills) as thermal resources; (b) explore the dynamic response of unsaturated soils during surface vibrations or earthquake shaking; (b) investigate performance-based design strategies involving unsaturated soil mechanics which enable more efficient use of materials in geotechnical systems; and (c) understand how geosynthetic reinforcements can be used to improve the efficiency and sustainability of geotechnical systems. The overall vision McCartney's research group is to lead the geotechnical engineering community toward these goals by developing simple understandings of complex phenomena through physical modeling of geotechnical systems, novel element scale testing, innovative sensors, and monitoring of full-scale systems in the field (landfill covers, pavements, and foundations). These tools are used to develop or validate constitutive models which can be used in numerical simulations.
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GEO-CONGRESS 2023: GEOTECHNICS OF NATURAL HAZARDS (2023): 178-186
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Hiden Jaime Machaca Huancollo,Fernando Saboya Jr,Sergio Tibana,John Scott McCartney,Ricardo Garske Borges
GEOTECHNICAL TESTING JOURNALno. 3 (2023): 579-597
GEO-CONGRESS 2023: FOUNDATIONS, RETAINING STRUCTURES, AND GEOSYNTHETICSpp.438-446, (2023)
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GEO-CONGRESS 2022: GEOPHYSICAL AND EARTHQUAKE ENGINEERING AND SOIL DYNAMICS (2022): 629-637
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GEO-CONGRESS 2022: GEOENVIRONMENTAL ENGINEERING; UNSATURATED SOILS; AND CONTEMPORARY TOPICS IN EROSION, SUSTAINABLITY, AND COAL COMBUSTION RESIDUALS (2022): 315-324
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