Draft:Nabil F. Grace

Nabil F. Grace Ph.D., PE, FESD
Academic background
Education	University of Windsor, Cairo University
Academic work
Discipline	Structural Engineering, highway bridges, and composite materials
Institutions	Lawrence Technological University
Notable works	Founding Director, Center for Innovative Materials Research (CIMR); Founding Director, MDOT Center of Excellence for Infrastructures
Website	https://www.ltu.edu/nabil_grace/

Nabil F. Grace is an Egyptian-American structural engineer recognized for his pioneering contributions to the application of composite materials in civil infrastructure. He serves as the Director of the Center for Innovative Materials Research (CIMR) ^[1]

Career

Grace began his academic career shortly after completing his doctorate, joining Lawrence Technological University (LTU) as a faculty member. He quickly became a leading figure in the field of structural engineering, recognized for his innovative approaches to using composite materials in construction. In 2008, Dr. Grace founded the Center for Innovative Materials Research (CIMR) at LTU, a state-of-the-art facility dedicated to exploring the potential of composite materials in civil and defense infrastructure.^[2]

Research

Grace’s research has primarily focused on the application of carbon fiber reinforced polymer (CFRP) in structural engineering, with an emphasis on its use in prestressed concrete bridges. His work has led to the development of innovative design guidelines and the successful implementation of CFRP technology in multiple highway bridges across the United States. These bridges are notable for their enhanced durability and resistance to environmental stressors, offering a significant improvement over traditional materials.

Grace’s research has been funded by a range of prestigious organizations, including the National Science Foundation, the Federal Highway Administration, and the Michigan Department of Transportation. His contributions have not only advanced the field of structural engineering but have also had a direct impact on public infrastructure, with many of his research findings being implemented in real-world projects.^[3]

Publications

Selected Papers

1. Grace, N., Mohamed, M., and Bebawy, M., 2023, “Evaluating Fatigue, Relaxation, and Creep Rupture of Carbon-Fiber-Reinforced Polymer Strands for Highway Bridge Construction^[4],” PCI Journal, Vol. 68, No. 3.
2. Grace, N., Mohamed, M., Chynoweth, M., et al., 2022, “Design, Construction, and Monitoring of U.S. Longest Highway Bridge Span Prestressed with CFRP Strands^[5],” ASCE Journal of Bridge Engineering, Vol 27, Issue 7.
3. Grace, N., Bebawy, M., et al., 2019, “Evaluating Long-Term Capacity & Ductility of Carbon Fiber Reinforced Polymer Prestressing & Post-Tensioning Strands Subject to Long Term Losses, Creep, and Environmental Factors^[6],” Report No. SPR-1690.

References

1. "LTU names unique research center after Engineering Dean Nabil Grace". TechCentury. 13 August 2021.
2. "IDEAS | Interdisciplinary Design and Entrepreneurial Application Sequence". www.ltu.edu.
3. "IDEAS | Interdisciplinary Design and Entrepreneurial Application Sequence". www.ltu.edu.
4. "Evaluating fatigue, relaxation, and creep rupture of carbon-fiber-reinforced polymer strands for highway bridge construction". PCI Journal.
5. Grace, Nabil F.; Mohamed, Mohamed E.; Kasabasic, Marc; Chynoweth, Matthew; Ushijima, Kenichi; Bebawy, Mena. "Design, Construction, and Monitoring of US Longest Highway Bridge Span Prestressed with CFRP Strands". Journal of Bridge Engineering. 27 (7). doi:10.1061/(ASCE)BE.1943-5592.0001881. ISSN 1084-0702.
6. Grace, Nabil; Bebawy, Mena; Kasabasic, Marc; Al-Hassan, Ernest; Acharya, Aditya; Abdo, Kerolos; Mohamed, Mohamed. "Evaluating Long Term Capacity & Ductility of Carbon Fiber Reinforced Polymer Prestressing & Post Tensioning Strands Subject to Long Term Losses, Creep, and Environmental Factors, and Development of CFRP Prestressing Specifications for the Design of Highway Bridges". National Academies of Sciences, Engineering, and Medicine.