Also, the thickness global variable is still representing the part thickness of the mirrored part. 5)Įditing the mirrored part sheet metal feature shows the part thickness was “transferred” to the mirrored part thickness. Now you insert a mirror part, with the “sheet metal information” option checked and still linked to the parent part (Fig. 3)Īny additional bodies created in the part will - by default - have the part thickness (2 mm) (Fig. In this particular example, the part thickness still is 2 mm, and it will only control the thickness of the U-shaped body (Fig. If you want a body to have a different thickness from the part thickness, you edit the Sheet-Metal# body feature, check the “Override default parameters” and enter the desired thickness (Fig. 1)īy default, when creating a sheet metal body, the thickness of the body is controlled by the part thickness. The “Thickness Global Variable” always reflects the part thickness. When you create a sheet metal part, you have one Sheet-Metal feature (Part Thickness) and as many Sheet-Metal# (Body Thickness) features as sheet metal bodies. Before starting with the main issue of the article, let’s review how the sheet metal thickness works when dealing with multi body parts.
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