Basic Tutorials - Sheet Metal
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1. Designing from scratch (06:04)List Item 1
This video demonstrates how to create a sheet metal part from scratch and then unfold it to export it to a CAM system.
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2. Rework an imported part (05:23)List Item 2
In this tutorial, we'll investigate the creation of a sheet metal air box from an existing solid model.
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3. Working with lofted bends of an imported model (05:24)List Item 3
In this tutorial, we will show how an airconditioning system is manufactured using assembly modeling and lofted bends.
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4. Creating a model with lofted bends (02:22)List Item 4
In this tutorial, we will show how to work with lofted bends in BricsCAD Sheet Metal.
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5. Feature Coloring (01:05)
With feature coloring you can easily distinguish one sheet metal feature from another and visually validate your sheet metal parts. Flanges, bends, junctions and reliefs all have their own assigned color.
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6. Batch Processing (03:40)
Batch processes of sheet metal parts and assemblies can be automated in large numbers using a dedicated LISP API. This automation feature accomplishes tasks, such as producing families of sheet metal parts of different sizes. Example LISP scripts are included with BricsCAD.
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7. Making a parametric work bench - Part one (07:04)
In this tutorial series we're going to demonstrate how you can create a parametric workbench in sheetmetal.
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8. Making a parametric work bench - Part two (08:39)
Starting with the completed model of the sheetmetal bench from Part 1 we now add the parameters and constraints, which will allow us to drive our model
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9. Making a parametric work bench - Part three (02:19)
In the third part of this tutorial series we demonstrate how an Architectural Designer can make use of our bench to complete their design.
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10. Making a parametric work bench - Part four (06:26)
In the final part of this series, we take on the role of a sheetmetal fabricator to prepare our workbench for unfolding, then generate the flattened profiles.
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11. Parametrizing sheetmetal parts (01:48)
Sheet Metal for BricsCAD adds new design intelligence by automatically placing 3D constraints within your model as you work. The result? Better dimensional control over your designs with the automated creation of these constraints.
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12. Split thickness faces into regions (01:08)
When using junction features in your designs, Sheet Metal for BricsCAD will allow you to split thickness faces into regions. Thus enhancing your ability to work with junction features.
