rebarstud
Structural
- Apr 7, 2010
- 5
thread607-239942
I have a question about the referenced thread, in the 5th edition of LRFD bridge design, equation A13.4.3.1-1 distributes the plastic moment resistance of a single post over the width of the base plate plus the distance from the outer edge of base plate to the inner most row of bolts. This produces a very high moment. Does anyone have any experience with the current code and the size of the additional overhang rebar required based on this design moment? The additonal required rebar is coming out to be #7 @ 8" with a standard isotropic reinforcement of #4 @ 8" top and bottom, each way. Following the NYSDOT bridge manual and bridge detail sheets. If I could distribute the force over the b distance as shown in Figure A13.4.3.1-1, the design moment should be smaller, and thus reducing the addtional rebar. Any thoughts would be much appreciated.
I have a question about the referenced thread, in the 5th edition of LRFD bridge design, equation A13.4.3.1-1 distributes the plastic moment resistance of a single post over the width of the base plate plus the distance from the outer edge of base plate to the inner most row of bolts. This produces a very high moment. Does anyone have any experience with the current code and the size of the additional overhang rebar required based on this design moment? The additonal required rebar is coming out to be #7 @ 8" with a standard isotropic reinforcement of #4 @ 8" top and bottom, each way. Following the NYSDOT bridge manual and bridge detail sheets. If I could distribute the force over the b distance as shown in Figure A13.4.3.1-1, the design moment should be smaller, and thus reducing the addtional rebar. Any thoughts would be much appreciated.
