EngDYIGuy
Structural
- Oct 9, 2015
- 31
Hey guys,
I'm looking into the anchorage of Ductwork, plumbing, cable trays, and conduit bracing into concrete. I understand the calculation of horizontal seismic force Fp. My question is in regards to the anchorage forces, and I see ASCE 7-05 section 13.4.2 refferences this. I'm wondering how to compute the design forces for the anchorage. I don't see in chapter 13 of ASCE 7 an equation for vertical seismic forces. However, I'm looking at "TOLCO Seismic Restraint Systems Guidlines" and the anchorage force computed utilizes the ASCE 7 eqn 12.4-4 of 0.2*Sds*Wp for the vertical forces. Do you combine the horizontal and vertical forces via ASCE eqn 12.4-1 E=Eh+-Ev and calculate the reaction force for anchorage? I see that Qe is specifically called out to be do to effects of V or Fp. This is a non-rigid hanging trapeze with tension rods, and braces that have stiffeners on them.
TOLCO Seismic Restraint Systems Guidlines:
I'm looking into the anchorage of Ductwork, plumbing, cable trays, and conduit bracing into concrete. I understand the calculation of horizontal seismic force Fp. My question is in regards to the anchorage forces, and I see ASCE 7-05 section 13.4.2 refferences this. I'm wondering how to compute the design forces for the anchorage. I don't see in chapter 13 of ASCE 7 an equation for vertical seismic forces. However, I'm looking at "TOLCO Seismic Restraint Systems Guidlines" and the anchorage force computed utilizes the ASCE 7 eqn 12.4-4 of 0.2*Sds*Wp for the vertical forces. Do you combine the horizontal and vertical forces via ASCE eqn 12.4-1 E=Eh+-Ev and calculate the reaction force for anchorage? I see that Qe is specifically called out to be do to effects of V or Fp. This is a non-rigid hanging trapeze with tension rods, and braces that have stiffeners on them.
TOLCO Seismic Restraint Systems Guidlines:
