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Author: Kent A. Harries Publisher: ISBN: Category : Bridges Languages : en Pages : 169
Book Description
It is common practice that aging and structurally damaged prestressed concrete bridge members are taken out of service and replaced. This, however, is not an efficient use of materials and resources since the member can often be repaired in situ. There are numerous repair techniques proposed by entrepreneurial and academic institutions which restore prestressed concrete girder flexural strength and save both material and economic resources. Of course, not all repair methods are applicable in every situation and thus each must be assessed based on girder geometry and the objectives of the repair scenario. This document focuses on the practical application of prestressed concrete bridge girder repair methods. In this document, repair methods are presented for three prototype prestressed concrete highway bridge girder shapes: adjacent boxes (AB), spread boxes (SB), and AASHTO-type I-girders (IB), having four different damage levels. A total of 22 prototype repair designs are presented. Although not applicable to all structure types or all damage levels, the repair techniques covered include the use of carbon fiber reinforced polymer (CFRP) strips, CFRP fabric, near-surface mounted (NSM) CFRP, prestressed CFRP, post-tensioned CFRP, strand splicing and external steel post-tensioning. It is the authors' contention that each potential structural repair scenario should be assessed independently to determine which repair approach is best suited to the unique conditions of a specific project. Therefore, no broad classifications have been presented directly linking damage level (or a range of damage) to specific repair types. Nonetheless, it is concluded that when 25% of the strands in a girder no longer contribute to its capacity, girder replacement is a more appropriate solution. Guidance with respect to inspection and assessment of damage to prestressed concrete highway bridge girders and the selection of a repair method is presented. These methods are described through 22 detailed design examples. Based on these examples, review of existing projects and other available data, a detailed review of selection and performance criteria for prestressed concrete repair methods is provided. Best practices based on the study objectives are presented.
Author: Kent A. Harries Publisher: ISBN: Category : Bridges Languages : en Pages : 169
Book Description
It is common practice that aging and structurally damaged prestressed concrete bridge members are taken out of service and replaced. This, however, is not an efficient use of materials and resources since the member can often be repaired in situ. There are numerous repair techniques proposed by entrepreneurial and academic institutions which restore prestressed concrete girder flexural strength and save both material and economic resources. Of course, not all repair methods are applicable in every situation and thus each must be assessed based on girder geometry and the objectives of the repair scenario. This document focuses on the practical application of prestressed concrete bridge girder repair methods. In this document, repair methods are presented for three prototype prestressed concrete highway bridge girder shapes: adjacent boxes (AB), spread boxes (SB), and AASHTO-type I-girders (IB), having four different damage levels. A total of 22 prototype repair designs are presented. Although not applicable to all structure types or all damage levels, the repair techniques covered include the use of carbon fiber reinforced polymer (CFRP) strips, CFRP fabric, near-surface mounted (NSM) CFRP, prestressed CFRP, post-tensioned CFRP, strand splicing and external steel post-tensioning. It is the authors' contention that each potential structural repair scenario should be assessed independently to determine which repair approach is best suited to the unique conditions of a specific project. Therefore, no broad classifications have been presented directly linking damage level (or a range of damage) to specific repair types. Nonetheless, it is concluded that when 25% of the strands in a girder no longer contribute to its capacity, girder replacement is a more appropriate solution. Guidance with respect to inspection and assessment of damage to prestressed concrete highway bridge girders and the selection of a repair method is presented. These methods are described through 22 detailed design examples. Based on these examples, review of existing projects and other available data, a detailed review of selection and performance criteria for prestressed concrete repair methods is provided. Best practices based on the study objectives are presented.
Author: Maher K. Tadros Publisher: Transportation Research Board ISBN: 0309118352 Category : Technology & Engineering Languages : en Pages : 76
Book Description
This report establishes a user's manual for the acceptance, repair, or rejection of precast/prestressed concrete girders with longitudinal web cracking. The report also proposes revisions to the AASHTO LRFD Bridge Design Specifications and provides recommendations to develop improved crack control reinforcement details for use in new girders. The material in this report will be of immediate interest to bridge engineers.
Author: George O. Shanafelt Publisher: Transportation Research Board National Research ISBN: 9780309030328 Category : Concrete bridges Languages : en Pages : 66
Author: George O. Shanafelt Publisher: Transportation Research Board National Research ISBN: Category : Technology & Engineering Languages : en Pages : 96
Author: J. Paul Guyer, P.E., R.A. Publisher: Guyer Partners ISBN: Category : Technology & Engineering Languages : en Pages : 45
Book Description
Introductory technical guidance for construction managers interested in repair of concrete bridges. Here is what is discussed: Preventive Maintenance 1. INTRODUCTION, 2. SURFACE COATING, 3. JOINT MAINTENANCE, 4. CATHODIC PROTECTION Repair and Strengthen 5. GENERAL REQUIREMENTS, 6. CRACK REPAIRS, 7. SPALL REPAIR, 8. JOINT REPAIR, 9. ABUTMENTS AND WINGWALLS, 10. BRIDGE SEATS, 11. COLUMNS AND PILES, 12. STRINGERS AND BEAMS, 13. DECKS, 14. REPLACEMENT OF CONCRETE MEMBERS Upgrade Concrete Bridges 15. GENERAL UPGRADE METHODS, 16. STRENGTHEN INDIVIDUAL MEMBERS, 17. PRESTRESSED CONCRETE MEMBERS
Author: G. P. Mallett Publisher: Thomas Telford ISBN: 9780727720078 Category : Technology & Engineering Languages : en Pages : 216
Book Description
Provides a review of the repair, maintenance and protection of concrete bridges. This book summarizes information from conference papers, research and technical reports, and others. It aims to increase the expertise of structural engineers and safeguard the investment. It presents solutions to the problems and pitfalls that engineers encounter.
Author: Chris P. Pantelides Publisher: ISBN: Category : Concrete bridges Languages : en Pages : 68
Book Description
Fiber reinforced polymer composites are an increasingly popular material that can be used for bridge girder retrofit/repair. The purpose of this research, therefore, is to develop methods and design guidelines for repair and retrofit of bridge girders suffering (1) shear strength deficiencies related to end cracking and (2) flexural strength deficiencies related to vehicular collision. Scaled test specimens were fabricated and subjected to cyclic loading in order to instigate damage similar to that caused by end cracking and vehicular collision. Subsequently, the damaged specimens were repaired with external post-tensioned carbon fiber rods and re-tested to failure. This report presents the data from the tests and design guidelines for the use of external post-tensioned carbon fiber rods for repair applications.
Author: Robert J. Connor Publisher: Transportation Research Board ISBN: 0309099374 Category : Transportation Languages : en Pages : 140
Book Description
TRB¿s National Cooperative Highway Research Program (NCHRP) Report 604: Heat-Straightening Repair of Damaged Steel Bridge Girders: Fatigue and Fracture Performance explores limits, based on fatigue and fracture performance, on the number of damage and repair cycles to which damaged steel bridge girders may be subjected using the heat-straightening procedure.
Author: Kent A. Harries
Author: Kent A. Harries
Author: Maher K. Tadros
Author: George O. Shanafelt
Author: George O. Shanafelt
Author: J. Paul Guyer, P.E., R.A.
Author: G. P. Mallett
Author: Lionel Lemay
Author: Chris P. Pantelides
Author: Habib Tabatabai
Author: Robert J. Connor