Development Of Abutment Design Standards For Local Bridge Designs Verification Of Design Methodology
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Development of Abutment Design Standards for Local Bridge Designs: Design manual
Author | : |
Publisher | : |
Total Pages | : 166 |
Release | : 2004 |
Genre | : Bridges |
ISBN | : |
Several superstructure design methodologies have been developed for low volume road bridges by the Iowa State University Bridge Engineering Center. However, to date no standard abutment designs have been developed. Thus, there was a need to establish an easy to use design methodology in addition to generating generic abutment standards and other design aids for the more common substructure systems used in Iowa. The final report for this project consists of three volumes. The first volume summarizes the research completed in this project. The second volume introduces and outlines the use of the various design aids developed for this project. The third volume provides two sets of calculations that demonstrate the application of the substructure design methodology developed in this project. These calculations also verify the accuracy of the foundation design template.
Development of Abutment Design Standards for Local Bridge Designs: Development of design methodology
Author | : |
Publisher | : |
Total Pages | : 102 |
Release | : 2004 |
Genre | : Bridges |
ISBN | : |
Several superstructure design methodologies have been developed for low volume road bridges by the Iowa State University Bridge Engineering Center. However, to date no standard abutment designs have been developed. Thus, there was a need to establish an easy to use design methodology in addition to generating generic abutment standards and other design aids for the more common substructure systems used in Iowa. The final report for this project consists of three volumes. The first volume summarizes the research completed in this project. A survey of the Iowa County Engineers was conducted from which it was determined that while most counties use similar types of abutments, only 17 percent use some type of standard abutment designs or plans. A literature review revealed several possible alternative abutment systems for future use on low volume road bridges in addition to two separate substructure lateral load analysis methods. These consisted of a linear and a non-linear method. The linear analysis method was used for this project due to its relative simplicity and the relative accuracy of the maximum pile moment when compared to values obtained from the more complex non-linear analysis method. The resulting design methodology was developed for single span stub abutments supported on steel or timber piles with a bridge span length ranging from 20 to 90 ft and roadway widths of 24 and 30 ft. However, other roadway widths can be designed using the foundation design template provided. The backwall height is limited to a range of 6 to 12 ft, and the soil type is classified as cohesive or cohesionless. The design methodology was developed using the guidelines specified by the American Association of State Highway Transportation Officials Standard Specifications, the Iowa Department of Transportation Bridge Design Manual, and the National Design Specifications for Wood Construction. The second volume introduces and outlines the use of the various design aids developed for this project. Charts for determining dead and live gravity loads based on the roadway width, span length, and superstructure type are provided. A foundation design template was developed in which the engineer can check a substructure design by inputting basic bridge site information. Tables published by the Iowa Department of Transportation that provide values for estimating pile friction and end bearing for different combinations of soils and pile types are also included. Generic standard abutment plans were developed for which the engineer can provide necessary bridge site information in the spaces provided. These tools enable engineers to design and detail county bridge substructures more efficiently. The third volume provides two sets of calculations that demonstrate the application of the substructure design methodology developed in this project. These calculations also verify the accuracy of the foundation design template. The printouts from the foundation design template are provided at the end of each example. Also several tables provide various foundation details for a pre-cast double tee superstructure with different combinations of soil type, backwall height, and pile type.
Riprap Design Criteria, Recommended Specifications, and Quality Control
Author | : Peter Frederick Lagasse |
Publisher | : Transportation Research Board |
Total Pages | : 226 |
Release | : 2006 |
Genre | : Riprap |
ISBN | : 0309098661 |
TRB's National Cooperative Highway Research Program (NCHRP) Report 568: Riprap Design Criteria, Recommended Specifications, and Quality Control examines design guidelines; recommended material specifications and test methods; recommended construction specifications; and construction, inspection, and quality control guidelines for riprap for a range of applications, including revetment on streams and riverbanks, bridge piers and abutments, and bridge scour countermeasures such as guide banks and spurs.
Design and Construction of Bridge Approaches
Author | : Harvey E. Wahls |
Publisher | : Transportation Research Board |
Total Pages | : 56 |
Release | : 1990 |
Genre | : Technology & Engineering |
ISBN | : 9780309049054 |
Includes case histories of the Dumbarton Bridge (San Francisco Bay, Calif.), the Rainier Avenue Embankment (Seattle, Wash.) and the Gallows Road Grade Separation (Fairfax, Va.)
LRFD Guide Specifications for the Design of Pedestrian Bridges
Author | : American Association of State Highway and Transportation Officials |
Publisher | : AASHTO |
Total Pages | : 38 |
Release | : 2009 |
Genre | : Bridges |
ISBN | : 1560514698 |
AASHTO Guide Specifications for LRFD Seismic Bridge Design
Author | : |
Publisher | : AASHTO |
Total Pages | : 249 |
Release | : 2009 |
Genre | : Bridges |
ISBN | : 1560513969 |
Covers seismic design for typical bridge types and applies to non-critical and non-essential bridges. Approved as an alternate to the seismic provisions in the AASHTO LRFD Bridge Design Specifications. Differs from the current procedures in the LRFD Specifications in the use of displacement-based design procedures, instead of the traditional force-based "R-Factor" method. Includes detailed guidance and commentary on earthquake resisting elements and systems, global design strategies, demand modeling, capacity calculation, and liquefaction effects. Capacity design procedures underpin the Guide Specifications' methodology; includes prescriptive detailing for plastic hinging regions and design requirements for capacity protection of those elements that should not experience damage.
AASHTO Guide Specifications for LRFD Seismic Bridge Design
Author | : |
Publisher | : AASHTO |
Total Pages | : 271 |
Release | : 2011 |
Genre | : Bridges |
ISBN | : 156051521X |
This work offers guidance on bridge design for extreme events induced by human beings. This document provides the designer with information on the response of concrete bridge columns subjected to blast loads as well as blast-resistant design and detailing guidelines and analytical models of blast load distribution. The content of this guideline should be considered in situations where resisting blast loads is deemed warranted by the owner or designer.