D1.F.5.6 Column Design in Pre-2014 Codes
MMAG
parameter is
specified, the column moments are multiplied by the MMAG
value to arrive at
the ultimate moments on the column. Since the ACI code no longer requires any minimum
eccentricity conditions to be satisfied, such checks are not made.Method used
Bresler Load Contour Method
Known Values
Pu, Muy, Muz, B, D, Clear cover, Fc, Fy
Ultimate Strain for concrete : 0.003
Steps involved
- Assume some reinforcement. Minimum reinforcement (1%) is a good amount to start with.
- Find an approximate arrangement of bars for the assumed reinforcement.
- Calculate PNMAX = 0.85 Po, where Po is the maximum axial load capacity of the section. Ensure that the actual nominal load on the column does not exceed PNMAX. If PNMAX is less than Pu/PHI, (PHI is the strength reduction factor) increase the reinforcement and repeat steps 2 and 3. If the reinforcement exceeds 8%, the column cannot be designed with its current dimensions.
- For the assumed reinforcement, bar arrangement and axial load, find the uniaxial moment capacities of the column for the Y and the Z axes, independently. These values are referred to as MYCAP and MZCAP respectively.
- Solve the interaction
equation:
If the column is subjected to a uniaxial moment, a is chosen as 1.0
- If the Interaction equation is satisfied, find an arrangement with available bar sizes, find the uniaxial capacities and solve the interaction equation again. If the equation is satisfied now, the reinforcement details are written to the output file.
- If the interaction equation is not satisfied, the assumed reinforcement is increased (ensuring that it is under 8%) and steps 2 to 6 are repeated.
- The maximum spacing of reinforcement
closest to the tension force, for purposes of crack control, is given by
with fs in psi and is permitted to be taken equal to (2/3) fy, rather than 60 percent of fy, as in ACI 318-02.
- Section 10.9.3 has been modified to permit the use of spiral reinforcement with specified yield strength of up to 100,000 psi. For spirals with fyt greater than 60,000 psi, only mechanical or welded splices may be used.
Column Interaction
The column interaction values may be obtained by using the design parameter TRACK 1.0 or TRACK 2.0 for the column member. If a value of 2.0 is used for the TRACK parameter, 12 different Pn-Mn pairs, each representing a different point on the Pn-Mn curve are printed. Each of these points represents one of the several Pn-Mn combinations that this column is capable of carrying about the given axis, for the actual reinforcement that the column has been designed for. In the case of circular columns, the values are for any of the radial axes. The values printed for the TRACK 1.0 output are:
- P0
- Maximum purely axial load carrying capacity of the column (zero moment).
- Pnmax
- Maximum allowable axial load on the column (Section 10.3.5 of ACI 318).
- P-bal
- Axial load capacity at balanced strain condition.
- M-bal
- Uniaxial moment capacity at balanced strain condition.
- e-bal
- M-bal / P-bal = Eccentricity at balanced strain condition.
- M0
- Moment capacity at zero axial load.
- P-tens
- Maximum permissible tensile load on the column.
- Des. Pn
- Pu/
PHI
wherePHI
is the Strength Reduction Factor and Pu is the axial load for the critical load case. - Des. Mn
-
Mu×
MMAG
/PHI
where PHI is the Strength Reduction Factor and Mu is the bending moment for the appropriate axis for the critical load case.For circular columns,
Example
Column design per the ACI 318-2005 code
UNIT KIP INCH
START CONCRETE DESIGN
CODE ACI 2005
FYMAIN 58 ALL
MAXMAIN 10 ALL
CLB 2.5 ALL
DESIGN COLUMN 23 25
END CONCRETE DESIGN
Example
Column design per the ACI 318-2002 code
UNIT KIP INCH
START CONCRETE DESIGN
CODE ACI 2002
FYMAIN 58 ALL
MAXMAIN 10 ALL
CLB 2.5 ALL
DESIGN COLUMN 23 25
END CONCRETE DESIGN
Example
Column design per the ACI 318-1999 code
UNIT KIP INCH
START CONCRETE DESIGN
CODE ACI 1999
FYMAIN 58 ALL
MAXMAIN 10 ALL
CLB 2.5 ALL
DESIGN COLUMN 23 25
END CONCRETE DESIGN
Column Design Output
The samples illustrate different levels of the column
design output. The following output is generated without any
TRACK
definition (i.e., using the default of
TRACK 0.0
):
====================================================================
COLUMN NO. 5 DESIGN PER ACI 318-05 - AXIAL + BENDING
FY - 60000 FC - 4000 PSI, SQRE SIZE - 12.00 X 12.00 INCHES, TIED
AREA OF STEEL REQUIRED = 7.589 SQ. IN.
BAR CONFIGURATION REINF PCT. LOAD LOCATION PHI
----------------------------------------------------------
8 - NUMBER 9 5.556 2 STA 0.650
(PROVIDE EQUAL NUMBER OF BARS ON EACH FACE)
TIE BAR NUMBER 4 SPACING 8.00 IN
TRACK 1.0
generates the following
additional output:
COLUMN INTERACTION: MOMENT ABOUT Z -AXIS (KIP-FT)
--------------------------------------------------------
P0 Pn max P-bal. M-bal. e-bal.(inch)
942.40 753.92 179.59 170.75 11.41
M0 P-tens. Des.Pn Des.Mn e/h
148.52 -480.00 350.15 10.47 0.00249
--------------------------------------------------------
COLUMN INTERACTION: MOMENT ABOUT Y -AXIS (KIP-FT)
--------------------------------------------------------
P0 Pn max P-bal. M-bal. e-bal.(inch)
942.40 753.92 179.59 170.75 11.41
M0 P-tens. Des.Pn Des.Mn e/h
148.52 -480.00 350.15 136.51 0.03249
--------------------------------------------------------
TRACK 2.0
generates the following output
in addition to the above examples:
Pn Mn Pn Mn (@ Z )
| 695.93 77.23 347.96 148.53
P0 |* 637.93 93.16 289.97 157.71
| * 579.94 107.06 231.98 164.41
Pn,max|__* 521.94 118.23 173.98 170.18
| * 463.95 129.01 115.99 163.66
Pn | * 405.96 139.03 57.99 156.37
NOMINAL| * Pn Mn Pn Mn (@ Y )
AXIAL| * 695.93 77.23 347.96 148.53
COMPRESSION| * 637.93 93.16 289.97 157.71
Pb|-------*Mb 579.94 107.06 231.98 164.41
| * 521.94 118.23 173.98 170.18
___________|____*_______ 463.95 129.01 115.99 163.66
| * M0 Mn, 405.96 139.03 57.99 156.37
| * BENDING
P-tens|* MOMENT
|