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Nanotechnology in civil infrastructure a paradigm shift

Research Summary Solid mechanics applied to the multi-scale analysis and design of advanced and novel architectured materials, interfaces and complex structures. Zavattieri's research interests lie at the interface between Solid Mechanics and Materials Engineering with focus on the development of novel materials that exhibit paradigm-shifting properties for various applications that can impact the general field of infrastructure and lightweight structural materials.


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His contribution to solid mechanics has been focused on the structure-function relationship of advanced materials at multiple length-scales, combining state-of-the-art computational techniques and experiments to characterize the properties, and enabling the design of novel materials.

His contribution to fracture mechanics includes the development of a new fracture models for thin-walled structures and their implementation in commercial finite element codes. He also made contributions in the area of smart materials, structures and smart composites with a total of 10 patents and 5 other published patent applications. He has recently worked on solid mechanics problems related to biological and biomimetic materials.

His most recent work is focused on architectured metamaterials, smart and programmable materials.

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A Multiscale Strategy for the Modeling of the mechanical performance of hoop and loop fasteners based on a detachment zone model DZM. Velcro Co. Scalable Nanomanufacturing.

University Faculty Scholar , Purdue University , Roy E. Wansik Research Award.

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Yaraghi, N. Guarin-Zapata, N.


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Nanotechnology in Civil Infrastructure: A Paradigm Shift

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Nanotechnology in Civil Infrastructure is a state-of-the art reference source describing the latest developments in nano-engineering and nano-modification of construction materials to improve the bulk properties, development of sustainable, intelligent, and smart concrete materials through the integration of nanotechnology based self-sensing and self-powered materials and cyber infrastructure technologies, review of nanotechnology applications in pavement engineering, development of novel, cost-effective, high-performance and long-lasting concrete products and processes through nanotechnology-based innovative processing of cement and cement paste, and advanced nanoscience modeling, visualization, and measurement systems for characterizing and testing civil infrastructure materials at the nano-scale.