GetDamperLinearExponential

GetDamperLinearExponential

Syntax

SapObject.SapModel.PropLink.GetDamperLinearExponential

VB6 Procedure

Function GetDamperLinearExponential(ByVal Name As String, ByRef DOF() As Boolean, ByRef Fixed() As Boolean, ByRef NonLinear() As Boolean, ByRef Ke() As Double, ByRef Ce() As Double, ByRef k() As Double, ByRef c() As Double, ByRef cexp() As Double, ByRef ForceLimit() As Double, ByRef dj2 As Double, ByRef dj3 As Double, ByRef Notes As String, ByRef GUID As String) As Long

Parameters

Name

The name of an existing linear exponential damper-type link property.

DOF

This is a boolean array, dimensioned to 5, indicating if properties exist for a specified degree of freedom.

DOF(0) = U1

DOF(1) = U2

DOF(2) = U3

DOF(3) = R1

DOF(4) = R2

DOF(5) = R3

Fixed

This is a boolean array, dimensioned to 5, indicating if the specified degree of freedom is fixed (restrained.)

Fixed(0) = U1 fixity

Fixed(1) = U2 fixity

Fixed(2) = U3 fixity

Fixed(3) = R1 fixity

Fixed(4) = R2 fixity

Fixed(5) = R3 fixity

The term Fixed(n) applies only when DOF(n) = True.

NonLinear

This is a boolean array, dimensioned to 5, indicating if nonlinear properties exist for a specified degree of freedom.

NonLinear(0) = U1 has nonlinear properties

NonLinear(1) = U2 has nonlinear properties

NonLinear(2) = U3 has nonlinear properties

NonLinear(3) = R1 has nonlinear properties

NonLinear(4) = R2 has nonlinear properties

NonLinear(5) = R3 has nonlinear properties

The term NonLinear(n) applies only when DOF(n) = True and Fixed(n) = False.

Ke

This is an array of effective stiffness terms for the link property. The effective stiffness applies for linear analyses.

Ke(0) = U1 [F/L]

Ke(1) = U2 [F/L]

Ke(2) = U3 [F/L]

Ke(3) = R1 [FL]

Ke(4) = R2 [FL]

Ke(5) = R3 [FL]

The term Ke(n) applies only when DOF(n) = True and Fixed(n) = False.

Ce

This is an array of effective damping terms for the link property. The effective damping applies for linear analyses.

Ce(0) = U1 [F/L]

Ce(1) = U2 [F/L]

Ce(2) = U3 [F/L]

Ce(3) = R1 [FL]

Ce(4) = R2 [FL]

Ce(5) = R3 [FL]

The term Ce(n) applies only when DOF(n) = True and Fixed(n) = False.

k

This is an array of initial stiffness terms for the link property. The initial stiffness applies for nonlinear analyses.

k(0) = U1 [F/L]

k(1) = U2 [F/L]

k(2) = U3 [F/L]

k(3) = R1 [FL]

k(4) = R2 [FL]

k(5) = R3 [FL]

The term k(n) only applies only when DOF(n) = True, Fixed(n) = False and NonLinear(n) = True.

c

This is an array of nonlinear damping coefficient terms for the link property. The nonlinear damping coefficient applies for nonlinear analyses.

c(0) = U1 [F/(L^cexp)]

c(1) = U2 [F/(L^cexp)]

c(2) = U3 [F/(L^cexp)]

c(3) = R1 [FL]

c(4) = R2 [FL]

c(5) = R3 [FL]

The term c(n) applies only when DOF(n) = True, Fixed(n) = False and NonLinear(n) = True.

cexp

This is an array of the nonlinear damping exponent terms. The nonlinear damping exponent applies for nonlinear analyses. It is applied to the velocity across the damper in the equation of motion.

cexp(0) = U1

cexp(1) = U2

cexp(2) = U3

cexp(3) = R1

cexp(4) = R2

cexp(5) = R3

The term cexp(n) applies only when DOF(n) = True, Fixed(n) = False and NonLinear(n) = True.

ForceLimit

This is an array of nonlinear linear force limit terms for the link property. The linear force limit applies for nonlinear analyses.

ForceLimit(0) = U1 [F]

ForceLimit(1) = U2 [F]

ForceLimit(2) = U3 [F]

ForceLimit(3) = R1 [FL]

ForceLimit(4) = R2 [FL]

ForceLimit(5) = R3 [FL]

The term ForceLimit(n) applies only when DOF(n) = True, Fixed(n) = False and NonLinear(n) = True.

dj2

The distance from the J-End of the link to the U2 shear spring. This item applies only when DOF(1) = True. [L]

dj3

The distance from the J-End of the link to the U3 shear spring. This item applies only when DOF(2) = True. [L]

Notes

The notes, if any, assigned to the property.

GUID

The GUID (global unique identifier), if any, assigned to the property. If this item is input as Default, the program assigns a GUID to the property.

Remarks

This function retrieves link property data for a linear exponential damper-type link property.

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

VBA Example

Sub GetLinkPropDamperLinearExponential()

'dimension variables

Dim SapObject as cOAPI

Dim SapModel As cSapModel

Dim ret As Long

Dim MyDOF() As Boolean

Dim MyFixed() As Boolean

Dim MyNonLinear() As Boolean

Dim MyKe() As Double

Dim MyCe() As Double

Dim MyK() As Double

Dim MyC() As Double

Dim MyCexp() As Double

Dim MyForceLimit() As Double

Dim DOF() As Boolean

Dim Fixed() As Boolean

Dim NonLinear() As Boolean

Dim Ke() As Double

Dim Ce() As Double

Dim K() As Double

Dim C() As Double

Dim Cexp() As Double

Dim ForceLimit() As Double

Dim dj2 As Double

Dim dj3 As Double

Dim Notes As String

Dim GUID As String

'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)

'add link property

ReDim MyDOF(5)

ReDim MyFixed(5)

ReDim MyNonLinear(5)

ReDim MyKe(5)

ReDim MyCe(5)

ReDim MyK(5)

ReDim MyC(5)

ReDim MyCexp(5)

ReDim MyForceLimit(5)

MyDOF(0) = True

MyKe(0) = 12

MyCe(0) = 0.01

MyDOF(1) = True

MyNonLinear(1) = True

MyKe(1) = 12

MyCe(1) = 0.01

MyK(1) = 20

MyC(1)=0.08

MyCexp(1) = 1.2

MyForceLimit(1) = 50

MyDOF(2) = True

MyFixed(2) = True

ret = SapModel.PropLink.SetDamperLinearExponential("D1", MyDOF, MyFixed, MyNonLinear, MyKe, MyCe, MyK, MyC, MyCexp, MyForceLimit, 1, 0)

'get link property data

ret = SapModel.PropLink.GetDamperLinearExponential ("D1", DOF, Fixed, NonLinear, Ke, Ce, k, c, cexp, ForceLimit, dj2, dj3, Notes, GUID)

'close Sap2000

SapObject.ApplicationExit False

Set SapModel = Nothing

Set SapObject = Nothing

End Sub

Release Notes

Initial release in version 16.0.2.

See Also

SetDamperLinearExponential