GetOverwrite {Steel Indian IS 800-1998}

GetOverwrite

Syntax

SapObject.SapModel.DesignSteel.INDIAN_IS_800_1998.GetOverwrite

VB6 Procedure

Function GetOverwrite(ByVal Name As String, ByVal Item As Long, ByRef Value As Double, ByRefProgDet As Boolean) As Long

Parameters

Name

The name of a frame object with a steel frame design procedure.

Item

This is an integer between 1 and 34, inclusive, indicating the overwrite item considered.

1 = Framing type

2 = Consider deflection

3 = Deflection check type

4 = DL deflection limit, L/Value

5 = SDL + LL deflection limit, L/Value

6 = LL deflection limit, L/Value

7 = Total load deflection limit, L/Value

8 = Total camber limit, L/Value

9 = DL deflection limit, absolute

10 = SDL + LL deflection limit, absolute

11 = LL deflection limit, absolute

12 = Total load deflection limit, absolute

13 = Total camber limit, absolute

14 = Specified camber

15 = Net area to total area ratio

16 = Live load reduction factor

17 = Unbraced length ratio, Major

18 = Unbraced length ratio, Minor

19 = Unbraced length ratio, Lateral Torsional Buckling

20 = Effective length factor, K Major

21 = Effective length factor, K Minor

22 = Effective length factor, K Lateral Torsional Buckling

23 = Moment coefficient, Cm Major

24 = Moment coefficient, Cm Minor

25 = Yield stress, Fy

26 = Allowable compressive stress, Sigma_ac

27 = Allowable tensile stress, Sigma_at

28 = Allowable major bending stress, Sigma_bc33

29 = Allowable minor bending stress, Sigma_bc22

30 = Major average shear stress, Tau_va2

31 = Minor average shear stress, Tau_va3

32 = Maximum elastic shear stress, Tau_vm

33 = Allowable effective stress, Sigma_e

34 = Demand/capacity ratio limit

Value

The value of the considered overwrite item.

1 = Framing type

0 = Program Default

1 = Sway Frame

2 = Nonsway Frame

2 = Consider deflection

0 = Program Determined

1 = No

2 = Yes

3 = Deflection check type

0 = Program default

1 = Ratio

2 = Absolute

3 = Both

4 = DL deflection limit, L/Value

Value >= 0; 0 means no check for this item.

5 = SDL + LL deflection limit, L/Value

Value >= 0; 0 means no check for this item.

6 = LL deflection limit, L/Value

Value >= 0; 0 means no check for this item.

7 = Total load deflection limit, L/Value

Value >= 0; 0 means no check for this item.

8 = Total camber limit, L/Value

Value >= 0; 0 means no check for this item.

9 = DL deflection limit, absolute

Value >= 0; 0 means no check for this item. [L]

10 = SDL + LL deflection limit, absolute

Value >= 0; 0 means no check for this item. [L]

11 = LL deflection limit, absolute

Value >= 0; 0 means no check for this item. [L]

12 = Total load deflection limit, absolute

Value >= 0; 0 means no check for this item. [L]

13 = Total camber limit, absolute

Value >= 0; 0 means no check for this item. [L]

14 = Specified camber

Value >= 0. [L]

15 = Net area to total area ratio

Value >= 0; 0 means use program default value.

16 = Live load reduction factor

Value >= 0; 0 means use program determined value.

17 = Unbraced length ratio, Major

Value >= 0; 0 means use program determined value.

18 = Unbraced length ratio, Minor

Value >= 0; 0 means use program determined value.

19 = Unbraced length ratio, Lateral Torsional Buckling

Value >= 0; 0 means use program determined value.

20 = Effective length factor, K Major

Value >= 0; 0 means use program determined value.

21 = Effective length factor, K Minor

Value >= 0; 0 means use program determined value.

22 = Effective length factor, K Lateral Torsional Buckling

Value >= 0; 0 means use program determined value.

23 = Moment coefficient, Cm Major

Value >= 0; 0 means use program determined value.

24 = Moment coefficient, Cm Minor

Value >= 0; 0 means use program determined value.

25 = Yield stress, Fy

Value >= 0; 0 means use program determined value. [F/L
2
]

26 = Allowable compressive stress, Sigma_ac

Value >= 0; 0 means use program determined value. [F/L
2
]

27 = Allowable tensile stress, Sigma_at

Value >= 0; 0 means use program determined value. [F/L
2
]

28 = Allowable major bending stress, Sigma_bc33

Value >= 0; 0 means use program determined value. [F/L
2
]

29 = Allowable minor bending stress, Sigma_bc22

Value >= 0; 0 means use program determined value. [F/L
2
]

30 = Major average shear stress, Tau_va2

Value >= 0; 0 means use program determined value. [F/L
2
]

31 = Minor average shear stress, Tau_va3

Value >= 0; 0 means use program determined value. [F/L
2
]

32 = Maximum elastic shear stress, Tau_vm

Value >= 0; 0 means use program determined value. [F/L
2
]

33 = Allowable effective stress, Sigma_e

Value >= 0; 0 means use program determined value. [F/L
2
]

34 = Demand/capacity ratio limit

Value >= 0; 0 means use program determined value.

ProgDet

If this item is True, the specified value is program determined.

Remarks

This function retrieves the value of a steel design overwrite item.

The function returns zero if the item is successfully retrieved; otherwise it returns a nonzero value.

VBA Example

Sub GetSteelDesignOverwriteItemINDIAN_IS_800_1998()

'dimension variables

Dim SapObject as cOAPI

Dim SapModel As cSapModel

Dim ret As Long

Dim Value As Double

Dim ProgDet As Boolean

'create Sap2000 object

Set SapObject = CreateObject("CSI.SAP2000.API.SapObject")

'start Sap2000 application

SapObject.ApplicationStart

'create SapModel object

Set SapModel = SapObject.SapModel

'initialize model

ret = SapModel.InitializeNewModel

'create model from template

ret = SapModel.File.New2DFrame(PortalFrame, 2, 144, 2, 288)

'set steel design code

ret = SapModel.DesignSteel.SetCode("Indian IS:800-1998")

'run analysis

ret = SapModel.File.Save("C:\SapAPI\x.sdb")

ret = SapModel.Analyze.RunAnalysis

'start steel design

ret = SapModel.DesignSteel.StartDesign

'get overwrite item

ret = SapModel.DesignSteel.INDIAN_IS_800_1998.GetOverwrite("8", 1, Value, ProgDet)

'close Sap2000

SapObject.ApplicationExit False

Set SapModel = Nothing

Set SapObject = Nothing

End Sub

Release Notes

Initial release in version 11.03.

See Also

SetOverwrite