 # V.NZS3404 1997-Angle section compact

Verify the design capacity of compact angle section as per NZ3404 1997.

## Details

The member is an A150X150X19 section used in a 5 m cantilever member. The cantilever is loaded with a 2 kN point load at the free end. Steel grade is 280 MPa.

## Validation

Section Classification

$λef=B2tffy250=15019280250=7.297$

Section classification is compact.

Effective Section Modulus, Zez = 110,960 mm3

The nominal section capacity in bending about Z axis, Msz = ϕfy×Zez

Msz = 280× 110,960/106 = 31.07 kN·m

ϕMsz = 0.9×31.07 = 27.962 kN·m

Effective Section Modulus, Zey = 248,967 mm3

The nominal section capacity in bending about Z axis, Msy = ϕfy×Zey

Msy = 280× 248,967/106 = 69.71 kN·m

ϕMsy = 0.9×69.71 = 62.74 kN·m

Member Bending Capacity

End restraint arrangement = FF

A twist restraint factor, Kt (SKT) = 1.00

Minor axis rotation restraints = Both

Lateral rotation restraint factor, Kr (SKR) = 0.70

Load Height factor, Kl, (LHT) = 1.00 [Ref : Table 5.6.3(2)]

Effective length = 1×1×0.7×9,000 = 6,300 mm
$α m = 1.7 M m * ( M 2 * ) 2 + ( M 3 * ) 2 + ( M 4 * ) 2 ≤ 2.5$

αm = 2.25

Reference buckling moment, Mo

 $α s = 0.6 M s x M o a 2 + 3 - M s x M o a = 0.780$ [Ref : Clause 5.6.1.1 (c)]

Mbx = αmαsMsx ≤ Msx

 Mbz = 2.25 × 0.780 × 69.71 = 122.34 kN·m ≤ (Msz, Msy)Max. [Ref : Clause 5.6.1.1.1(a)]

But as Mbz > Msy, Mbz = Msy = 69.71 kN·m

ϕMbz = 0.9×69.71 = 62.74 kN·m

Check for Shear

Shear Area of the section, Ay = d×tw = 150×19 = 2,850 mm2

Section Shear Capacity (Along Y axis), Vy = 0.6×fy×Ay = 0.6×280×2,850 = 478 kN

 Vvn = 2×478/(0.9 + 1.2) = 456 kN [Ref : Clause 5.11.2]

ϕVy = 0.9×456 = 410.4 kN

Shear Area of the section, AZ = bf× tf = 150×19 = 2,850 mm2

Section Shear Capacity (Along z axis),Vz = 0.6×fy×Az = 0.6×280×2,850 = 478 kN

Vvn = 2×478/(0.9 + 1.2) = 456 kN

ϕVz = 456×0.9 = 410.4 kN

Check for Axial Compression

Section Compression Capacity:

Gross Area, Ag = 5,360 mm2

Net Area, An = 5,360 mm2

Form factor, Kf = Ae/Ag = 1

The nominal member section capacity for axial compression,

Ns = Kf×An×fy = 1×5,360×280 = 1500.8 kN

 ϕNs = 0.9×1500.8 = 1,350.7 kN [Ref : Clause 6.2.1]

Member Compression Capacity

Length of the member, L = 5,000 mm

Effective length factor for slenderness & buckling about minor Y- axis, Ky = 1.00

Effective length factor for slenderness & buckling about minor Z- axis, Kz = 1.00

Effective Length of member, Lez = 5,000 mm

Effective Length of member, Ley = 5,000 mm

Geometrical Slenderness Ratio = Lez/rz = 5,000 / 29.3 = 170.648

Geometrical Slenderness Ratio = Ley/ry = 5,000 / 57.362 = 87.166

Member slenderness,

 $λ n z = L e z r k f f y 250 = 170.648 1 280 250 = 180.097$ [Ref : Clause 6.3.3]
 $λ n y = L e y r k f f y 250 = 87.166 1 280 250 = 92.248$ [Ref : Clause 6.3.3]

αaz = 2,100×(λnz - 13.5)/(λnz2 - 15.3λnz + 2,050) = 10.999

αay = 2,100×(λny - 13.5)/(λny2 - 15.3λny + 2,050) = 18.077

 αb = 0.5 [Ref : Table 6.3.3(2)]

λz = λnz + αaz×αz = 186.097

λy = λny + αay×αb = 101.286

η = 0.563

η = 0.286

ξz = ((λz/90)2+ 1 + η)/(2×(λz/90)2) = 0.683

ξy = ((λy/90)2+ 1 + η)/(2×(λy/90)2) = 1.008

αcz= 0.201

αcy= 0.532

The nominal member capacity,

 Ncz= αcz×Ns =0.201×1,500.8 = 301.388 kN [Ref : Clause 6.3.3]

ϕNcz = 271.3 kN

The nominal member capacity,

 Ncy= αcy×Ns =0.532×1,500.8 = 798.946 kN [Ref : Clause 6.3.3]

ϕNcy = 719.1 kN

Nominal Section tension Capacity

[Ref : Clause 7.1]

Kte = 1.00

Nt1 = Ag×fy = 1,500.8 kN

Nt2 = 0.85×Kte×An×fu = 2,004.6 kN

 ϕNt = 1,350.7 kN [Ref : Clause 5.6.1.1.1(a)]

## Results

Table 1. Comparison of results
ϕMsz (kN·m) 27.962 27.9620 none
ϕMsy (kN·m) 62.74 62.7397 negligible
ϕMbz (kN·m) 62.74 62.7397 negligible
ϕVy (kN) 410.4 410.4 none
ϕVz (kN) 410.4 410.4 none
ϕNs (kN) 1,350.7 1,350.7 none
ϕNcz (kN) 271.3 271.2 negligible
ϕNcy (kN) 719.1 719.1 none
ϕNt (kN) 1,350.7 1,350.7 none

The file C:\Users\Public\Public Documents\STAAD.Pro CONNECT Edition\Samples\ Verification Models\09 Steel Design\New Zealand\NZS3404 1997-Angle section compact.std is typically installed with the program.

STAAD SPACE
*
*  INPUT FILE: NZS3404_Angle_Section_Compact.STD
*
* REFERENCE : Hand Calculation
*
*  OBJECTIVE : TO DETERMINE THE ADEQUACY OF  EQUAL ANGLE SHAPE  PER
*              THE NZS3404-1997 CODE
*
START JOB INFORMATION
ENGINEER DATE 13-Feb-17
END JOB INFORMATION
INPUT WIDTH 79
*
UNIT METER KN
JOINT COORDINATES
1 0 0 0; 2 0 5 0;
*
MEMBER INCIDENCES
1 1 2;
DEFINE PMEMBER
1 PMEMBER 1
*
*
DEFINE MATERIAL START
ISOTROPIC STEEL
E 2.05e+08
POISSON 0.3
DENSITY 76.8195
ALPHA 1.2e-05
DAMP 0.03
TYPE STEEL
STRENGTH FY 253200 FU 407800 RY 1.5 RT 1.2
END DEFINE MATERIAL
*
MEMBER PROPERTY AUSTRALIAN
1 TABLE ST A150X150X19
*
CONSTANTS
BETA 45 ALL
MATERIAL STEEL ALL
*
SUPPORTS
1 FIXED
*
2 FZ 2
PERFORM ANALYSIS
*
PARAMETER 1
CODE NZS3404 1997
TRACK 2 PMEMB 1
IST 2 PMEMB 1
SGR 0 PMEMB 1
PBRACE TOP 0 FR 1 U PMEMB 1
PBRACE BOTTOM 0 FR 1 U PMEMB 1
DUCT 2 PMEMB 1
GLD 1 PMEMB 1
CHECK CODE PMEMB 1
*
FINISH


                       STAAD.PRO CODE CHECKING - NZS-3404-1997 (v1.0)
**************************************************
AXIS NOTATION FOR ST ANGLE SECTION:-
---------     -------------     ---------------
X/x             Z/z          Longitudinal axis of section
Y/y             X/x          Major principal axis of section
Z/z             Y/y          Minor Principal axis of section
MEMBER DESIGN OUTPUT FOR PMEMBER     1
DESIGN Notes
------------
1. (*) next to a Load Case number signifies that a P-Delta analysis has not been performed for
that particular Load Case; i.e. analysis does not include second-order effects.
2. ϕ = 0.9 for all the calculations [NZS3404 Table 3.4]
3. (#) next to Young's modulus E indicates that its value is not 200000 MPa as per NZS3404 1.4.
DESIGN SUMMARY
--------------
Designation: ST   A150X150X19              (AISC SECTIONS)
Governing Criteria:
Governing Ratio:   0.811  (PASS)
Governing Location:   0.000 m from Start.
SECTION PROPERTIES
------------------
d:       150.0000 mm    b:       150.0000 mm
t:        19.0000 mm
Ag:      5360.0000 mm2   J:   644.9868E+03 mm4             Iw:     1.0569E+09 mm6
Iz:     4.6015E+06 mm4  Sz:   134.6263E+03 mm3 (plastic)   Zz:   106.6860E+03 mm3 (elastic)
rz:    29.3000E+00 mm
Iy:    17.6365E+06 mm4  Sy:   265.6150E+03 mm3 (plastic)   Zy:   165.9782E+03 mm3 (elastic)
ry:    57.3620E+00 mm
STAAD SPACE                                              -- PAGE NO.    4
*
MATERIAL PROPERTIES
-------------------
Material Standard        :  AS/NZS 3679.1
Residual Stress Category :  HR (Hot-rolled)
E (#)       : 204999.984 MPa         [NZS3404 1.4]
G           :  80000.000 MPa         [NZS3404 1.4]
fy, flange  :    280.000 MPa         [NZS3404 Table 2.1]
fy, web     :    280.000 MPa         [NZS3404 Table 2.1]
fu          :    440.000 MPa         [NZS3404 Table 2.1]
SLENDERNESS:   ACTUAL SLENDERNESS RATIO:     170.648  LOAD:     1   LOC.(MET):   0.000
ALLOWABLE SLENDERNESS RATIO:  400.000
BENDING
-------
Critical Ratio     :   0.253
Critical Location  :   0.000 m from Start.
Mz* =    -7.0711E+00 KNm
Section Slenderness: Compact
Zez =   110.9604E+03 mm3
ϕMsz =    27.9620E+00 KNm                [NZS3404 Cl.5.1    ]
Critical Ratio     :   0.113
Critical Location  :   0.000 m from Start.
My* =    -7.0711E+00 KNm
Section Slenderness: Compact
Zey =   248.9673E+03 mm3
ϕMsy =    62.7397E+00 KNm                [NZS3404 Cl.5.1    ]
Member Bending Capacity
Critical Ratio     :   0.113
Critical Location  :   0.000 m from Start.
Crtiical Flange Segment:
Location (Type):   0.00 m(FR)-  5.00 m(U )
Mz* =     7.0711E+00 KNm
kt   =      1.00                         [NZS3404 Table 5.6.3(1)]
kl   =      1.00                         [NZS3404 Table 5.6.3(2)]
kr   =      1.00                         [NZS3404 Table 5.6.3(3)]
le   =      5.00 m                       [NZS3404 5.6.3]
αm   =     2.250                         [NZS3404 5.6.1.1.1(b)(iii)]
Mo   =   137.6171E+00 KNm                [NZS3404 5.6.1.1.1(d)]
αsy  =     0.779                         [NZS3404 5.6.1.1.1(c)]
ϕMby =    62.7397E+00 KNm (&lt;= ϕMsz)      [NZS3404 5.6.1.1.1(a)]
STAAD SPACE                                              -- PAGE NO.    5
*
SHEAR
-----
Section Shear Capacity (along Y-axis)
Critical Ratio     :   0.003
Critical Location  :   0.000 m from Start.
Vy*   =     1.4142E+00 KN
ϕVvmy =   410.4000E+00 KN                [NZS3404 5.12.2]
Section Shear Capacity (along Z-axis)
Critical Ratio     :   0.003
Critical Location  :   0.000 m from Start.
Vz*   =     1.4142E+00 KN
ϕVvmz =   410.4000E+00 KN                [NZS3404 5.12.2]
STAAD SPACE                                              -- PAGE NO.    6
*
AXIAL
-----
Section Compression Capacity
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
N*    =     0.0000E+00 KN
Ae    =     5.3600E+03 mm2               [NZS3404 6.2.3 / 6.2.4]
kf    =     1.000                        [AS 4100 6.2.2]
An    =     5.3600E+03 mm2
ϕNs   =     1.3507E+03 KN                [NZS3404 6.2.1]
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
N*    =     0.0000E+00 KN
Unbraced Segment:
Location (Type):   0.00 m(U )-  5.00 m(U )
Lez   =      5.00 m
αb    =      0.50                        [NZS3404 Table 6.3.3(1)/6.3.3(2)]
λn,z  =   180.597                        [NZS3404 6.3.3]
λ,z   =   186.097                        [NZS3404 6.3.3]
ε,z   =     0.683                        [NZS3404 6.3.3]
αc,z  =     0.201                        [NZS3404 6.3.3]
ϕNcz  = 0.2712E+3 KN                     [NZS3404 6.3.3]
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
N*    =     0.0000E+00 KN
Unbraced Segment:
Location (Type):   0.00 m(U )-  5.00 m(U )
Ley   =      5.00 m
λn,y  =    92.248                        [NZS3404 6.3.3]
λ,y   =   101.286                        [NZS3404 6.3.3]
ε,y   =     1.008                        [NZS3404 6.3.3]
αc,y  =     0.532                        [NZS3404 6.3.3]
ϕNcy  = 0.7191E+3 KN                     [NZS3404 6.3.3]
Section Tension Capacity
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
N*    =     0.0000E+00 KN
kt    =      1.00                        [User defined]
An    =     5.3600E+03 mm2
ϕNt   =     1.3507E+03 KN                [NZS3404 7.2]
STAAD SPACE                                              -- PAGE NO.    7
*
COMBINED BENDING AND AXIAL
------------------------
Critical Ratio     :   0.253
Critical Location  :   0.000 m from Start.
ϕMrz  =    27.9620E+00 KNm               [NZS3404 8.3.2]
Critical Ratio     :   0.113
Critical Location  :   0.000 m from Start.
ϕMry  =    62.7397E+00 KNm               [NZS3404 8.3.3]
Section Combined Capacity (Biaxial)
Critical Ratio     :   0.366
Critical Location  :   0.000 m from Start.
γ     =     1.400                         [NZS3404 8.3.4]
Critical Ratio     :   0.253
Critical Location  :   0.000 m from Start.
ϕMiz  =    27.9620E+00 KNm               [NZS3404 8.4.2]
Critical Ratio     :   0.113
Critical Location  :   0.000 m from Start.
ϕMiy  =    62.7397E+00 KNm               [NZS3404 8.4.2]
Member Out-of-plane Capacity (Tension)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
αbc   =      0.00
ϕNoy  =     0.0000E+00 KN                [NZS3404 8.4.4.1.2]
ϕMoy,t=     0.0000E+00 KNm               [NZS3404 8.4.4.1]
Member Out-of-plane Capacity (Compression)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
ϕMoy,c=     0.0000E+00 KNm               [NZS3404 8.4.4.2]
Member Biaxial Capacity (Tension)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
Member Biaxial Capacity (Compression)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
STAAD SPACE                                              -- PAGE NO.    8
*
SEISMIC PROVISIONS
------------------
Critical Ratio     :   0.811
Critical Location  :   5.000 m from Start.
λsz              =      7.30             [NZS3404 12.5.1.1]
λez              =      9.00             [NZS3404 Table 12.5]
Critical Ratio     :   0.811
Critical Location  :   0.000 m from Start.
λsy              =      7.30             [NZS3404 12.5.1.1]
λey              =      9.00             [NZS3404 Table 12.5]
Max Specific Yield Stress
Critical Ratio     :   0.778
Critical Location  :   0.000 m from Start.
Fy,actual        =    280.00
Fy,limit         =    360.00             [NZS3404 Table 12.4(1)]
Max Actual Yield Ratio (Fy/Fu)
Critical Ratio     :   0.795
Critical Location  :   0.000 m from Start.
Fy/Fu,actual     =      0.64
Fy/Fu,limit      =      0.80             [NZS3404 Table 12.4(3)]
Fabrication Requirement
Critical Ratio     : N/A
Critical Location  : N/A
Status           =   Passed              [NZS3404 12.4.1.2]
Section Symmetry Requirement
Critical Ratio     : N/A
Critical Location  : N/A
Status           =   Passed              [NZS3404 12.5.2]
Min Web Thickness Requirement for Beam
Critical Ratio     :   0.089
Critical Location  :   0.000 m from Start.
tw,actual        =     19.00
tw,min           =      1.69             [NZS3404 12.7.2]
Max Axial Force Limit for Column (a)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
N*/ϕNs - actual  =      0.00
N*/ϕNs - limit   =      0.70             [NZS3404 Table 12.8.1]
Max Axial Force Limit for Column (b)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
b m               =      0.00
NoL              =   372.4033E+00 KN
λEYC             =      2.01
N*/ϕNs - actual  =      0.00
N*/ϕNs - limit   =      0.05             [NZS3404 12.8.3.1(b)]
Max Axial Force Limit for Column (c)
Critical Ratio     :   0.000
Critical Location  :   0.000 m from Start.
Ng*/ϕNs - actual =      0.00
Ng*/ϕNs - limit  =      1.00             [NZS3404 12.8.3.1(c)]
Shear-Y + Bend-Z Interaction