TY - JOUR
T1 - Investigations on the Shear Behavior of Bridge Girders made of Normal and Ultra-high Performance Fiber-Reinforced Concrete
AU - Schramm, Nicholas
AU - Fischer, Oliver
N1 - Publisher Copyright:
© 2016 The Authors. Published by Elsevier Ltd.
PY - 2016
Y1 - 2016
N2 - To further analyze the shear behavior of continuous prestressed bridges, two research projects are currently being examined at the Chair of Concrete and Masonry Structures of TUM. While one project focuses on the actual bearing capacity of older existing bridges, the other one deals with the development of prefabricated prestressed UHPFRC I-beams utilizing different reinforcing concepts and materials. Alongside complex numerical investigations, a comprehensive experimental test series will be carried out. For all tests an innovative experimental setup is being developed, which allows full scale testing of concrete beams at reduced length using the substructure technique. On the one hand the shear resistance of slender prestressed ultra-high performance fiber-reinforced concrete (UHPFRC) bridge girders with very thin webs is investigated. For these I-shaped beams the shear behavior for different types of shear reinforcement, as well as the size effect for different cross-section heights is investigated. Furthermore, the influence of various types of shear reinforcement, especially outdated stirrups no longer permitted by current standards, on the shear capacity of existing bridges is being researched. In detail these stirrups, which can often be found in older bridges, are not closed or have insufficient overlap length. As the shear design is a major issue for the re-analyses of bridges in Germany where the provided stirrups do not meet current requirements, the impact of the stirrup geometry on the shear capacity of bridge girders made of normal strength concrete has to be investigated. The paper generally explains the above mentioned research projects and presents the results of preliminary investigations.
AB - To further analyze the shear behavior of continuous prestressed bridges, two research projects are currently being examined at the Chair of Concrete and Masonry Structures of TUM. While one project focuses on the actual bearing capacity of older existing bridges, the other one deals with the development of prefabricated prestressed UHPFRC I-beams utilizing different reinforcing concepts and materials. Alongside complex numerical investigations, a comprehensive experimental test series will be carried out. For all tests an innovative experimental setup is being developed, which allows full scale testing of concrete beams at reduced length using the substructure technique. On the one hand the shear resistance of slender prestressed ultra-high performance fiber-reinforced concrete (UHPFRC) bridge girders with very thin webs is investigated. For these I-shaped beams the shear behavior for different types of shear reinforcement, as well as the size effect for different cross-section heights is investigated. Furthermore, the influence of various types of shear reinforcement, especially outdated stirrups no longer permitted by current standards, on the shear capacity of existing bridges is being researched. In detail these stirrups, which can often be found in older bridges, are not closed or have insufficient overlap length. As the shear design is a major issue for the re-analyses of bridges in Germany where the provided stirrups do not meet current requirements, the impact of the stirrup geometry on the shear capacity of bridge girders made of normal strength concrete has to be investigated. The paper generally explains the above mentioned research projects and presents the results of preliminary investigations.
KW - FEM
KW - UHPFRC
KW - bridge girders
KW - material modeling
KW - re-analyses
KW - shear behavior
KW - stirrup types
KW - testing
UR - http://www.scopus.com/inward/record.url?scp=84992598422&partnerID=8YFLogxK
U2 - 10.1016/j.proeng.2016.08.315
DO - 10.1016/j.proeng.2016.08.315
M3 - Conference article
AN - SCOPUS:84992598422
SN - 1877-7058
VL - 156
SP - 411
EP - 418
JO - Procedia Engineering
JF - Procedia Engineering
T2 - 9th International Conference Bridges in Danube Basin, BDB 2016
Y2 - 30 September 2016 through 1 October 2016
ER -