The definitions made in this section affect the 3D model and, accordingly, the 2D model. The finite element model will be visible when fixity values are defined. The definitions related with 3D model of the object can be specified by using the tabs ‘Masonry’, ‘Pot and Piston’, ‘Sole Plate’.
Articulation
Insertion Point: Used for specifying the bearing location and can be selected by using the three dots and the options ‘Pick...’ and ‘Select...’.
Tx/Ty/Tz [Fixed/Free/Stiffness]: Allowing the bearing to displace can be arranged using these parameters. The bearing can be one of the three: Free, Fixed, or or defined by assigning a specific stiffness value.
Rx/Ry/Rz [Fixed/Free/Stiffness]: The rotation values along the axis can be determined for a bearing. The bearings can be free to rotate, fixed, or fixed until a specific point (definition with a stiffness value).
Bearing Rotation: Curved decks can be guided either radially from a fixed point or tangentially to the radius of curvature. When the deck is guided radially, precise geometry is crucial for the bearings that are farthest from the fixed point. For structures with a constant curvature, it is recommended to align the bearings tangentially to effectively guide the deck around the curve as it expands and contracts.
Transfer Forces to Substructure [Yes/No]: If the user chooses to connect the superstructure to the substructure, a two-node spring is required between the pier cap and the girder, which can be generated by selecting “YES”. Conversely, if there is no substructure or if the abutments are being considered ( currently, abutments in OpenBrIM have the "Generate FEM" option set to “NO”), the correct setting for the "Transfer Forces to Substructure" parameter is“NO” and one node springs are needed.
Masonry & Pot and Piston & Sole Plate
3D related definitions can be made by using related tabs of the object.
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