Users:General FEM Analysis/Elements Reference/Beam 3D NURBS KLRod
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− | + | == General Description == | |
− | + | ||
+ | === Element Type === | ||
+ | |||
+ | * This element provides a geometrically nonlinear, isogeometric spatial Bernoulli beam<ref> A. M. Bauer, M. Breitenberger, B. Philipp, R. Wüchner, K.-U. Bletzinger: „Nonlinear isogeometric spatial Bernoulli beam“, in „Computer methods in applied mechanics and engineering“, Vol. 303, 2016, Seiten 101-127 http://dx.doi.org/10.1016/j.cma.2015.12.027 </ref>. | ||
+ | * Torsion without warping is included | ||
+ | * The element formulation can handle arbitrary orientations of the cross section along the beam. | ||
+ | |||
+ | === Degrees of Freedom === | ||
+ | |||
+ | The element uses three translatoric degrees of freedom (''Disp_X'', ''Disp_Y'', ''Disp_Z'') and a rotational degree of freedom (''Rot_Tan'') at each control point. | ||
=== Parameter Description === | === Parameter Description === | ||
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|Linking to a material input block | |Linking to a material input block | ||
|- | |- | ||
− | ! | + | !INT_TYPE_BEAM_3D_NURBS_KLRod |
|FULL, USER | |FULL, USER | ||
− | |Control of integration type. | + | |Control of integration type. |
+ | * FULL: p+1 Gauss points are used (p = polynomial degree of the NURBS patch) | ||
+ | * USER: the optional Parameter GAUSS_U defines the number of Gauss points | ||
|- | |- | ||
!rowspan="3" | CROSS SECTION | !rowspan="3" | CROSS SECTION | ||
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|AXIS ''float1'' ''float2'' ''float3'' ''float4'' | |AXIS ''float1'' ''float2'' ''float3'' ''float4'' | ||
|Definition of the cross sectional principal axis. Second axis is perpendicual to first and tangent of the curve. ''float1'' is the position on the curve and ''float'' - ''float4'' the direction (x,y,z). Base vectors are normalized and linearly interpolated for postions inbetween the defined ones. Axes for start and end knot of the NURBS curve are mandatory. | |Definition of the cross sectional principal axis. Second axis is perpendicual to first and tangent of the curve. ''float1'' is the position on the curve and ''float'' - ''float4'' the direction (x,y,z). Base vectors are normalized and linearly interpolated for postions inbetween the defined ones. Axes for start and end knot of the NURBS curve are mandatory. | ||
+ | |- | ||
+ | |colspan="3" style="background:#efefef;"| Optional Parameters | ||
+ | |- | ||
+ | !Parameter | ||
+ | !Values, Default(*) | ||
+ | !Description | ||
+ | |- | ||
+ | !GAUSS_U | ||
+ | |GAUSS_U = ''int'' | ||
+ | |Number of Gauss point per element. Must only to be defined when INT_TYPE_BEAM_3D_NURBS_KLRod = USER | ||
|- | |- | ||
|} | |} | ||
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HEIGHT=1.0 | HEIGHT=1.0 | ||
WIDTH=1.0 | WIDTH=1.0 | ||
− | or: | + | !or: |
AREA=1.0000e+008 | AREA=1.0000e+008 | ||
IY=1.0000e+008 | IY=1.0000e+008 | ||
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AXIS 1.000000e+000 0.000000e+000 1.000000e+000 0.000000e+000 | AXIS 1.000000e+000 0.000000e+000 1.000000e+000 0.000000e+000 | ||
</pre> | </pre> | ||
+ | |||
+ | == Element Loading == | ||
+ | |||
+ | The Beam_3D_NURBS_KLRod element is able to carry the following loads: | ||
+ | * dead load | ||
+ | * snow load | ||
+ | * pressure load | ||
+ | * moment | ||
+ | |||
+ | == Benchmarks == | ||
+ | |||
+ | The main benchmark files in the ''Carat++''-repository are | ||
+ | * '../examples/benchmark_examples/isogeometric/iga_kl_rod_lin/cbm_beam3D_nurbs_csa.txt'. | ||
+ | * '../examples/benchmark_examples/isogeometric/iga_kl_rod_nln/cbm_iga_kl_rod_nln.txt'. | ||
+ | It is further used in: | ||
+ | * '../examples/benchmark_examples/isogeometric/iga_formfinding_4point_with_trusses/cbm_4PointSailwTrusses.txt' | ||
+ | |||
+ | == References == | ||
+ | |||
+ | <references/> |
Latest revision as of 09:49, 20 December 2016
Contents |
General Description
Element Type
- This element provides a geometrically nonlinear, isogeometric spatial Bernoulli beam[1].
- Torsion without warping is included
- The element formulation can handle arbitrary orientations of the cross section along the beam.
Degrees of Freedom
The element uses three translatoric degrees of freedom (Disp_X, Disp_Y, Disp_Z) and a rotational degree of freedom (Rot_Tan) at each control point.
Parameter Description
Compulsory Parameters | ||
Parameter | Values, Default(*) | Description |
---|---|---|
MAT | EL-MAT int | Linking to a material input block |
INT_TYPE_BEAM_3D_NURBS_KLRod | FULL, USER | Control of integration type.
|
CROSS SECTION | DIAMETER = float | circular cross section defined ba the diameter. A = d^2π/4, Iy = Iz = d^4π/32, It= d^4π/32 |
HEIGHT = float WIDTH = float |
rectangular cross section defined by height and width. A = h*w, Iy = h^3*w/12 Iz = h*w^3/12 It= min(h,w)^3*max(h,w)/3 | |
AREA = float IY = float IZ = float IT = float |
cross section defined directly | |
AXIS | AXIS float1 float2 float3 float4 | Definition of the cross sectional principal axis. Second axis is perpendicual to first and tangent of the curve. float1 is the position on the curve and float - float4 the direction (x,y,z). Base vectors are normalized and linearly interpolated for postions inbetween the defined ones. Axes for start and end knot of the NURBS curve are mandatory. |
Optional Parameters | ||
Parameter | Values, Default(*) | Description |
GAUSS_U | GAUSS_U = int | Number of Gauss point per element. Must only to be defined when INT_TYPE_BEAM_3D_NURBS_KLRod = USER |
Example of a Complete Input Block
EL-PROP 1 : BEAM_3D_NURBS_KLRod MAT= EL-MAT 1 DIAMETER=1.0 !or: HEIGHT=1.0 WIDTH=1.0 !or: AREA=1.0000e+008 IY=1.0000e+008 IZ=1.0000e+008 IT=1.0000e+008 INT_TYPE_BEAM_3D_NURBS_KLRod = FULL !or: INT_TYPE_BEAM_3D_NURBS_KLRod = USER GAUSS_U = 3 ! U n1 n2 n3 AXIS 0.000000e+000 0.000000e+000 1.000000e+000 0.000000e+000 AXIS 1.000000e+000 0.000000e+000 1.000000e+000 0.000000e+000
Element Loading
The Beam_3D_NURBS_KLRod element is able to carry the following loads:
- dead load
- snow load
- pressure load
- moment
Benchmarks
The main benchmark files in the Carat++-repository are
- '../examples/benchmark_examples/isogeometric/iga_kl_rod_lin/cbm_beam3D_nurbs_csa.txt'.
- '../examples/benchmark_examples/isogeometric/iga_kl_rod_nln/cbm_iga_kl_rod_nln.txt'.
It is further used in:
- '../examples/benchmark_examples/isogeometric/iga_formfinding_4point_with_trusses/cbm_4PointSailwTrusses.txt'
References
- ↑ A. M. Bauer, M. Breitenberger, B. Philipp, R. Wüchner, K.-U. Bletzinger: „Nonlinear isogeometric spatial Bernoulli beam“, in „Computer methods in applied mechanics and engineering“, Vol. 303, 2016, Seiten 101-127 http://dx.doi.org/10.1016/j.cma.2015.12.027
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