PEnSE
Structural
- Jun 8, 2012
- 14
For those of you with experience in dealing with older concrete construction, I would appreciate any input/advice you might have.
I have a concrete structure that consists of a one-way 4" thick elevated slab with adjacent concrete joists about 6'-8" o.c. and concrete girders @ 20' o.c. The bay spacing/columns are 20' o.c. in both directions. The girders are in a 2-span condition (40' total length).
My client would like to make large penetrations in the 4" slab to accommodate new ductwork...the duct sizes vary with a maximum of 58"X20". The long dimension of the cuts will be parallel to the slab span (perpendicular to the joists).
I have the original 1946 plans, but they do not indicate: design load ,f'c or fy
As it's original intent was light equipment loading, I've assumed:
LL = 125 psf
DL slab = 50 psf
DL misc = 35 psf
f'c = 2000 psi
fy= 33 ksi
I have 2 questions/concern:
1. Reinforcing development length - Was the reinforcing used in 1946 deformed and development lengths similar to today? I will be cutting multiple slab bays and will lose my neg moment at the top of the slab. I have looked at the reinforcing which appears to be #3 @ 5 1/2" o.c. in the slab and using wl^2/8 for the bottom flexural reinforcement - the existing reinforcing appears to be adequate. My concern is development length.
2. T-Beam and Existing Shear Capacity: - My client must make these cuts adjacent to the main concrete girders. If the girders were designed as T-Beams I will lose 1/2 of my compression flange. Using a 2 span condition the maximum neg. moment is over the support at wl^2/8. The existing reinforcing over the supports appears inadequate for this loading. If I consider only pos reinforcing and wl^2/8 at the bottom I came up with a capacity of about 47 psf LL
The existing beams appear to be grossly under-designed for shear. I am not sure if they would have considered the concrete slab as contributing to the shear strength of the T-beam???
I will try to upload pictures
Thank you in advance for any help!
I have a concrete structure that consists of a one-way 4" thick elevated slab with adjacent concrete joists about 6'-8" o.c. and concrete girders @ 20' o.c. The bay spacing/columns are 20' o.c. in both directions. The girders are in a 2-span condition (40' total length).
My client would like to make large penetrations in the 4" slab to accommodate new ductwork...the duct sizes vary with a maximum of 58"X20". The long dimension of the cuts will be parallel to the slab span (perpendicular to the joists).
I have the original 1946 plans, but they do not indicate: design load ,f'c or fy
As it's original intent was light equipment loading, I've assumed:
LL = 125 psf
DL slab = 50 psf
DL misc = 35 psf
f'c = 2000 psi
fy= 33 ksi
I have 2 questions/concern:
1. Reinforcing development length - Was the reinforcing used in 1946 deformed and development lengths similar to today? I will be cutting multiple slab bays and will lose my neg moment at the top of the slab. I have looked at the reinforcing which appears to be #3 @ 5 1/2" o.c. in the slab and using wl^2/8 for the bottom flexural reinforcement - the existing reinforcing appears to be adequate. My concern is development length.
2. T-Beam and Existing Shear Capacity: - My client must make these cuts adjacent to the main concrete girders. If the girders were designed as T-Beams I will lose 1/2 of my compression flange. Using a 2 span condition the maximum neg. moment is over the support at wl^2/8. The existing reinforcing over the supports appears inadequate for this loading. If I consider only pos reinforcing and wl^2/8 at the bottom I came up with a capacity of about 47 psf LL
The existing beams appear to be grossly under-designed for shear. I am not sure if they would have considered the concrete slab as contributing to the shear strength of the T-beam???
I will try to upload pictures
Thank you in advance for any help!
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