I have a multi-girder steel bridge with a timber-plank deck. There are nine steel girders (each a W12x50 with 8" flange width) spaced at 27" c/c (i.e., net out/out width of 18'). The deck is made up of 4" x 12" timber planks (spanning over and perpendicular to the girders). The intended design vehicle is an H10-44 truck.
1) What is the design span for calculating max. bending moment in each timber plank (i.e., 27" c/c girders, or 19" clear span between the flanges, or something else)? Specific AASHTO references would be very helpful (A-4.6.2.1.6 was somewhat vague for this timber-over-steel situation).
2) Should I analyze as simply-supported, continuous, maybe a propped-condition, or something else.
The Inventory Ratings (Load Factor Method) for the steel bridge components are all > 1 , but I'm having trouble with the timber planks (all have IR < 1).
All comments/responses appreciated. TIA
1) What is the design span for calculating max. bending moment in each timber plank (i.e., 27" c/c girders, or 19" clear span between the flanges, or something else)? Specific AASHTO references would be very helpful (A-4.6.2.1.6 was somewhat vague for this timber-over-steel situation).
2) Should I analyze as simply-supported, continuous, maybe a propped-condition, or something else.
The Inventory Ratings (Load Factor Method) for the steel bridge components are all > 1 , but I'm having trouble with the timber planks (all have IR < 1).
All comments/responses appreciated. TIA