Likewise, if the beam is fixed against rotation at a specific point, then an external reaction moment may develop at that point.īased on the above discussion, we can see that a fixed boundary condition can develop axial and transverse reaction forces as well as a moment. For example, if a beam is fixed in the y-direction at a specific point, then a transverse (y) external reaction force may develop at that point. If the boundary condition indicates that the beam is fixed in a specific direction, then an external reaction in that direction can exist at the location of the boundary condition. For each boundary condition, the table indicates whether the beam is fixed or free in each direction at the point where the boundary condition is defined. For a constraint to exist at a point, the boundary condition must indicate that at least one direction is fixed at that point.Ĭommon boundary conditions are shown in the table below. For a 2-dimensional beam, the directions of interest are the x-direction (axial direction), y-direction (transverse direction), and rotation. The boundary condition indicates whether the beam is fixed (restrained from motion) or free to move in each direction. Constraints are defined at single points along the beam, and the boundary condition at that point determines the nature of the constraint. Beam Calculator Constraints and Boundary Conditionsįor a beam to remain in static equilibrium when external loads are applied to it, the beam must be constrained.
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