LicensedToPEe
Structural
- Aug 2, 2004
- 62
I am designing a 20ft DIA RC tunnel liner 335' down in bedrock. The hole in the bedrock will be blasted which means the annular void between the rock and outer surface of the liner will need to be grouted. The minimum grouting pressure needs to be at least that of the external hydrostatic pressure. At 335 feet, the water head will be 335’ x 62.43pcf x (1/1,000) = 20.91ksf = 145.21psi. So, let’s say I will require at least 150psi of grouting pressure. If I space out the grout holes in a 5’ by 5’ grid (typical in practice), what is the recommended procedure to check the flexural capacity if the concrete liner?
If I use an equivalent 1ft ring and 5 foot spacing, the following is used:
150psi = 21.60 ksf/ft distributed over a 5 foot length (spacing of grout holes). I have modeled the liner as a 20 foot circular segment with radial and tangential rock “springs”. The load is applied center-top, radially over the length of 5 feet (for D=20’, C=63’). The resulting positive moment (at L/2) is approx. 43 kip-ft [or wL^2 x (1/12)]. For a typical liner thickness of 12”, this moment kills my design (#8@12, ea way w/ 4” cover).
Is my assumptions/approach too conservative? Is using 150psi (12.60ksf) too high of a load?
Thanks!
If I use an equivalent 1ft ring and 5 foot spacing, the following is used:
150psi = 21.60 ksf/ft distributed over a 5 foot length (spacing of grout holes). I have modeled the liner as a 20 foot circular segment with radial and tangential rock “springs”. The load is applied center-top, radially over the length of 5 feet (for D=20’, C=63’). The resulting positive moment (at L/2) is approx. 43 kip-ft [or wL^2 x (1/12)]. For a typical liner thickness of 12”, this moment kills my design (#8@12, ea way w/ 4” cover).
Is my assumptions/approach too conservative? Is using 150psi (12.60ksf) too high of a load?
Thanks!