SOLIDWORKS-AUTOCAD-UNIGRAPHICS DESIGN With tutorial aids that very simple and funny, which emerge to learn 3D design in learner friendly way

How to make a Polar Array?
Click Home tab Modify panel Polar Array. Find.
Select the objects to array.
Specify a center point. A preview array is displayed.
Enter i (Items) and enter the number of objects to array.
Enter a (Angle) and enter the angle to fill. You can also drag the arrow grips to adjust the fill angle.

In making the polar array, we can make with counterclockwise or clockwise, depending on whether we will enter positive or negative value for sudutnya.Jari-finger array is determined by the distance from a particular focal point for the reference or base point on the last selected object. We can use a standard reference point (usually an arbitrary point which coincides with the point snap), or we can determine the new base point which will be used as a reference point. Array Size Limit If we determine a very large number of rows and columns to arrays, AutoCAD may take a long time to make copy.in default, the number of array elements that can be generated by a limited command is controlled by setting 100.000.MaxArray in registri.we can change boundary by assigning variables using the recording system MaxArray (setenv "MaxArray" "n") where n is the number between 100 and 10,000,000 (ten million).

Extruding from a selection.

The From panel establishes where the Extrude feature starts. By default, SolidWorks extrudes from the sketch plane. Other available options include: l Surface/Face/Plane. The extrude begins from a surface body, a face of a solid, or a reference plane. Extruding from a surface Cross-Reference Surface features are discussed in detail in Chapter 27. n l Vertex. The distance from the sketch plane to the selected vertex is treated as an offset distance. l Offset. You can enter an explicit offset distance, and you can change the direction of the offset. Direction 1 and Direction 2 Direction 1 and Direction 2 are always opposite one another. Direction 2 becomes inactive if you select Mid Plane for the end condition of Direction 1. The arrows that display in the graphics window show a single arrow for Direction 1 and a double arrow for Direction 2. For the Blind end condition, which is described next, dragging the arrows determines the distance of the extrude. Each of the end conditions is affected by the Reverse Direction toggle. This toggle simply changes the default direction by 180 degrees. You need to be careful when using this feature, particularly when using the Up to end conditions, because if the entity that you are extruding up to is not in the selected direction, an error results. Following is a brief description of each of the available end conditions for the Extrude feature: l Blind. Blind in this case means an explicit distance. The term is usually used in conjunction with holes of a specific depth, although here it is associated with a boss rather than a hole. l Up to Vertex. In effect, Up to Vertex works just like the Blind end condition, except that the distance is parametrically controlled by a model vertex or sketch point.

SolidWorks 2010
Bible
Matt Lombard

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Wiley Publishing, Inc.
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