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Articles 1 - 6 of 6
Full-Text Articles in Engineering
Artificial Neural Network Model For Bridge Deterioration And Assessment, G. Ali, A. Elsayegh, R. Assaad, Islam H. El-Adaway, I. S. Abotaleb
Artificial Neural Network Model For Bridge Deterioration And Assessment, G. Ali, A. Elsayegh, R. Assaad, Islam H. El-Adaway, I. S. Abotaleb
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
Missouri has the seventh largest number of bridges nationwide, yet must maintain its inventory with funding from just the fourth lowest gasoline tax in the country. Estimation and prediction of the condition of bridges is necessary to create and optimize future maintenance, repair, and rehabilitation plans as well as to assign the necessary associated budgets. Previous studies have used statistical analysis, fuzzy logic, and Markovian models to develop algorithms for predicting future bridge conditions. Due to the non-linear nature of the relationship between the characteristics of bridges and their deterioration behavior, Artificial Neural Networks (ANN) have shown to be more …
Contractual Guidelines For Contractors Working Under Projects Funded By Southeastern Us Dots, Islam H. El-Adaway, Amr Elsayegh, I. S. Abotaleb, C. Smith, M. Bootwala, S. Eteifa
Contractual Guidelines For Contractors Working Under Projects Funded By Southeastern Us Dots, Islam H. El-Adaway, Amr Elsayegh, I. S. Abotaleb, C. Smith, M. Bootwala, S. Eteifa
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
Transportation projects in the infrastructure sector contribute to approximately 42% of the total expenditures on public construction projects in the US. The main source of funding of these projects is the taxpayer's hard-earned money. The ever-growing problem by transportation projects is that the available funds are less than those required to have a stable and well maintained transportation network. Unnecessary costs in these projects are mainly caused by Conflicts, Claims and Disputes (C2D). According to recent reports, C2D in construction is greatly attributed to poor contract administration. The goal of this paper is to provide better understanding and utilization of …
Affordable Learning Solutions And Interactive Content In Engineering Mechanics, Nicolas Ali Libre
Affordable Learning Solutions And Interactive Content In Engineering Mechanics, Nicolas Ali Libre
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
Digital Affordable Learning Solutions (ALS) provides students with quality yet affordable educational content and enables instructors to utilize multimedia and interactive technology as effective ways of delivering course material. The reduced course content expenses not only allow more students to access the educational material, but also permit the instructors to customize and adapt the material to their teaching style. Incorporation of interactive technology through visually appealing media such as animations, graphics, simulations, videos, and three-dimensional models promotes students' interest in learning theoretical and abstract subjects in science and engineering. In this study, the incorporation of an interactive eBook as an …
Seismicity Enhances Macrodispersion In Finite Porous And Fractured Domains: A Pore-Scale Perspective, Lizhi Zheng, Lichun Wang, Wen Deng
Seismicity Enhances Macrodispersion In Finite Porous And Fractured Domains: A Pore-Scale Perspective, Lizhi Zheng, Lichun Wang, Wen Deng
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
Understanding the effects of oscillating flow field induced by seismicity on the transport process is vital for predicting the fate and transport of solute in many dynamic environments. However, there is prominent discrepancy in arguing with the response of dispersion to the oscillating flow field (i.e., the longitudinal dispersion coefficient would decrease, increase, or maintain unchanged). To unravel the underpinning physics about this controversial response, we simulated two-hundred twenty pore-scale numerical experiments for the seismicity-induced oscillating flow field and associated solute transport in the idealized finite porous (i.e., fluidic plate) and fractured (i.e., parallel plates) domains. The numerically obtained breakthrough …
Smart Building And Construction Materials, Donglu Shi, Julian Wang, Wen Deng
Smart Building And Construction Materials, Donglu Shi, Julian Wang, Wen Deng
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
Advances and innovations in materials science and engineering have always played a substantial role in civil engineering, building structural design, and construction. In recent years, extensive effort has been devoted to the applications of stimuli-responsive smart materials and nanostructures in buildings. These smart materials used in the built environment can be defined as those offering specific functional and adaptable properties in response to thermal, optical, structural, and environmental stimuli. Not only do these materials enhance the overall performance of new building construction but also promise safer structures, longer durability of building elements, efficient building energy savings, greater environmental sustainability, and …
Smart Building And Construction Materials, Donglu Shi, Julian Wang, Wen Deng
Smart Building And Construction Materials, Donglu Shi, Julian Wang, Wen Deng
Civil, Architectural and Environmental Engineering Faculty Research & Creative Works
No abstract provided.