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Full-Text Articles in Engineering
Analysis Of Full-Scale Mechanically Stabilized Earth (Mse) Wall Using Crimped Steel Wire Reinforcement, Joshua Aaron Jensen
Analysis Of Full-Scale Mechanically Stabilized Earth (Mse) Wall Using Crimped Steel Wire Reinforcement, Joshua Aaron Jensen
All Graduate Theses and Dissertations, Spring 1920 to Summer 2023
The Civil and Environmental Engineering department at Utah State University partnered with Hilfiker Retaining Walls to study the behavior and feasibility of crimped steel wire mat reinforcements. Researchers from Utah State University organized the study and created design for a full-scale model. Construction efforts were completed in cooperation of laborers from Utah State University, Hilfiker Retaining Walls, and Circle C Construction. The purpose of the study was to analyze the behavior and feasibility of a full-scale MSE wall using crimped steel wire mat reinforcements.
The estimated cost of the project was $53,600. The cost included the material cost of the …
Alternative Steel Reinforcement In Mechanically Stabilized Earth (Mse) Walls, Daniel T. Pond
Alternative Steel Reinforcement In Mechanically Stabilized Earth (Mse) Walls, Daniel T. Pond
All Graduate Theses and Dissertations, Spring 1920 to Summer 2023
Mechanically Stabilize Earth (MSE) is a method in which soil tensile strength and shear resistance is increased by using reinforcement. The traditional forms of reinforcement include bars, galvanized strips, welded wire mats or steel grids, and geosynthetics.
When steel is used as reinforcement in MSE walls, it gets corroded or decayed. Certain shapes of reinforcement will have less corrosion because less surface area is exposed. Pullout resistance is the ability to resist a tensile force. This can be affected by the design and shape of the steel. This study simulates different overburden depths or pressures for pullout resistance and evaluates …