Can You Draw Force Arrows on Solidworks
The Force/Torque PropertyManager applies forces, moments, or torques with uniform distribution to faces, edges, reference points, vertices and beams in any direction for use in structural studies.
To access the Force/Torque PropertyManager, do one of the following:
Type
Sets the type of force to apply. To apply force or moment to beams, see the topic Force/Torque PropertyManager (for Beams).
Force | ||
Torque | ||
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Face, Edge, Plane, Axis for Direction | Select an entity to specify the direction of the selected load. Valid entities depend on the load type as follows:
In an assembly, you can use reference geometry from the assembly or the components (parts and subassemblies) of the assembly. |
Units | Sets the units that will be used to enter numerical values of the force/moment/torque. Available units are: SI, English (IPS), and Metric (G). |
Force/Normal Force/Torque
Sets values for the force components, normal force, or torque.
Selected direction | If you choose Selected direction, your input depends on the selected entity for direction as follows:
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Normal | If you select Normal, specify the value of the force. | |||||||
Torque | If you select Torque , specify the value of the torque. If you apply a torque to a face using as a reference for direction an axis that is not the axis of symmetry (or it is not parallel to the plane of symmetry), an unbalanced resultant force may appear in the results. Check that the magnitude of the unbalanced resultant force is small enough, so that it can be neglected. | |||||||
Per item | Applies the force or torque value per selected entity. | |||||||
Total | Applies the total force or torque value among the selected entities. The selected entities must be of the same type in a force or torque definition (you cannot mix faces with edges or vertices). The total force is distributed proportionally to the areas of the selected faces (or to the lengths of the selected edges). If face 1 has area A1 and face 2 has area A2, the ratio of the total force applied to face 1 is: F_total * [A1 / (A1+A2)] and to face 2 is: F_total * [A2 / (A1+A2)]. |
Variation with Time
For linear and nonlinear dynamic studies, you can define a time-dependent force.
Linear | Uses a default linear time curve which passes through the points (0,0) and (tend, Pvalue). Where Pvalue is the pressure specified in the Pressure value box and tend is the End time specified on the Solution tab of the Nonlinear dialog box. |
Curve | Uses a user-defined time curve. Click Edit to define or import a time curve. The pressure at any time is calculated by multiplying the pressure value specified above by the Y value of the time curve. |
Graph | Displays the actual time-dependent pressure. |
Nonuniform Distribution
Specifies options for nonuniform force distribution.
Select a Coordinate System | Select a coordinate system to define the nonuniform force: | |||||
Units | Sets the units for the Cartesian (x, y, z), cylindrical (r, z), and spherical (r) coordinates. | |||||
Angular Units | Sets the angular units for the cylindrical (t) and spherical (t, p) coordinates. The trigonometric functions in equations (sin, cos, etc.) always treat the angular values in radians. To convert degrees to radians, multiply by pi /180 (for example cos("t" * 3.14159265 / 180.0)). | |||||
Edit Equation | Defines the equation which describes the spatial variation of the force with respect to the selected coordinate system. You can use a list of basic mathematical functions from the drop-down menu. In the equation interface, enter the coordinates inside quotation marks: "x", "y", "z", "r", "t", and "p". For example:
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Symbol Settings
Sets the color and size of force/torque symbols
Edit color | Select a color for the pressure symbols from the color palette. | |
Symbol size | Use the spin arrows to change the size of the pressure symbols. | |
Show preview | Turns on/off the display of pressure symbols. |
Notes:
Example of nonuniform force distribution defined by a reference Cartesian coordinate system.
F (X,Y) = A + B*X + C*Y + D*X*Y + E*X^2 + F*Y^2
Where:
F (X,Y) = relative magnitude of force applied at a point with coordinates X and Y for the selected coordinate system.
The value you enter in the Force field is the total force actually applied to the selected entities. The area under the distance versus force curve that is described by the equation is equal to the force value you enter. If the force reverses direction along a geometric entity (face or edge), the applied force value is equal to the summation of the absolute values of the forces applied to all nodes on the face or edge.
Contrary to the application of variable pressure, the A, B, C, D, E, and F polynomial coefficients are only used to define the relative distribution of the force. Multiplying all the coefficients by an arbitrary value, will not change the distribution or the intensity of the force.
Can You Draw Force Arrows on Solidworks
Source: https://help.solidworks.com/2017/english/SolidWorks/cworks/IDC_HELP_LOAD_FORCE.htm
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