A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
High Performance Concrete in Washington State SR 18/SR 516 Overcrossing: Interim Report on Materials Tests
In the mid 1990's the FHWA established a High Performance Concrete (HPC) program aimed at demonstrating the positive effects of utilizing HPC in bridges. Research on the benefits of using high performance concrete for bridges has shown a number of benefits. These include increased span capacities, or wider girder spacings (and hence a fewer number of girders); increased concrete compressive and flexural capacities; and improved concrete durability. However, inspite all of these positive research results, relatively little has been done regarding the implementation of high performance concrete in bridges in the United States. The general goals of the FHWA program are: to encourage the States to implement HPC in bridges; to develop appropriate mix designs and establish quality control procedures; to encourage the use of larger diameter (15mm (0.6ft)) prestressing strands in the girders; to evaluate the performance of the structure; and to provide for technology transfer through development of a workshop (showcase). This report presents preliminary test results from the first year of the materials testing program of the HPC mix used in the prestressed precast concrete girders on a bridge in the state of Washington. State Route 516 utilizes WSDOT 74G pretensioned I-girders with a 190 mm cast-in-place composite deck. The girders were fabricated with 15mm diameter prestressing strands at 50 mm spacing, and designed for a concrete compressive strength of 69 MPa at 56 days. The material testing program includes determining compressive and tensile strengths, elastic modulus, long term creep, shrinkage, and thermal expansion properties of the HPC girder; and monitoring the compressive and tensile strengths, and elastic modulus variations of the deck concrete.
High Performance Concrete in Washington State SR 18/SR 516 Overcrossing: Interim Report on Materials Tests
In the mid 1990's the FHWA established a High Performance Concrete (HPC) program aimed at demonstrating the positive effects of utilizing HPC in bridges. Research on the benefits of using high performance concrete for bridges has shown a number of benefits. These include increased span capacities, or wider girder spacings (and hence a fewer number of girders); increased concrete compressive and flexural capacities; and improved concrete durability. However, inspite all of these positive research results, relatively little has been done regarding the implementation of high performance concrete in bridges in the United States. The general goals of the FHWA program are: to encourage the States to implement HPC in bridges; to develop appropriate mix designs and establish quality control procedures; to encourage the use of larger diameter (15mm (0.6ft)) prestressing strands in the girders; to evaluate the performance of the structure; and to provide for technology transfer through development of a workshop (showcase). This report presents preliminary test results from the first year of the materials testing program of the HPC mix used in the prestressed precast concrete girders on a bridge in the state of Washington. State Route 516 utilizes WSDOT 74G pretensioned I-girders with a 190 mm cast-in-place composite deck. The girders were fabricated with 15mm diameter prestressing strands at 50 mm spacing, and designed for a concrete compressive strength of 69 MPa at 56 days. The material testing program includes determining compressive and tensile strengths, elastic modulus, long term creep, shrinkage, and thermal expansion properties of the HPC girder; and monitoring the compressive and tensile strengths, and elastic modulus variations of the deck concrete.
High Performance Concrete in Washington State SR 18/SR 516 Overcrossing: Interim Report on Materials Tests
E. Fekete (author) / P. Barr (author) / J. Stanton (author) / M. Eberhard (author) / D. Janssen (author)
2000
253 pages
Report
No indication
English
Prestressed highway overcrossing
Engineering Index Backfile | 1953
| NTIS | 1973
Street overcrossing without stopping traffic
| Engineering Index Backfile | 1964