CE 529 FRP Strengthening and Repair of Concrete Structures
3 Credit Hours
This course emphasizes the fundamental behavior of FRP strengthened/repaired reinforced concrete structures contributing towards sustainable and resilient civil infrastructure by extending the useful life of existing structures using advanced materials. As appropriate, reference is made to ACI440.2R: Guide for the Design and Construction of Externally Bonded FRP Systems for Strengthening Concrete Structures. The course material is applied to a practical strengthening design of a realistic reinforced concrete structure.
Prerequisite
Undergraduate reinforced concrete design (eg. CE327 or similar) and structural analysis (eg. CE325 or similar).
Course Objectives
Students will be able to analyze, design and/or assess rational strengthening or repair solutions for existing reinforced concrete structures using FRP materials based on sound fundamental principles. In addition, students will be able to effectively communicate strengthening analysis/design of a realistic reinforced concrete structure in a written report.
Course Topics
Topics will be selected from:
Overview of FRP material: basic material properties; manufacture of FRP products; durability considerations.
Flexural strengthening/repair of beams/slabs: fundamental interface bond-slip behavior; sectional analysis; debonding due to flexure and shear in RC beams/slabs; plate-end debonding; detailing considerations; retrofitting for serviceability; ductility.
Shear strengthening of beams: transverse FRP; debonding mechanism; interaction with internal steel stirrups.
Confinement of columns: FRP confined circular reinforced concrete columns; repair of seismically damaged columns.
Miscellaneous topics: case studies; FRP anchor design.
Textbook
No text book is required.
Class notes and other reference materials will be distributed as required.
Optional:
ACI440.2R Guide for the Design and Construction of Externally Bonded FRP Systems for Strengthening Concrete Structures
Course Requirements
Homework: 25% (approximately one assignment every two weeks)
Mid-term test: 15% (open notes)
Design Project: 25% (due end of semester)
Final Exam: 35% (open notes)
Updated: 10/31/2022