After successfully completing this chapter, you can create linear pattern and circular pattern. In addition, this chapter also elaborates assigning appearances, applying materials, calculating physical properties, and creating precise or realtime 3D section views.Ĭhapter 8, “Creating Sweep, Loft, and Helix Features,” discusses how to create sweep features, thin sweep features, sweep cut features, thin sweep cut features, loft features with and without guide curves, and loft cut features, in addition to helical, spiral coil and cut features.Ĭhapter 9, “Patterning and Mirroring,” introduces various patterning and mirroring tools. The chapter also discusses how to project model geometries onto the currently active sketching plane, display earlier state of a model, reorder or rearrange features of a model, edit features and sketches, suppress and unsuppress features, and measure model geometries. Additionally, this chapter elaborates how to insert images to aid in design.Ĭhapter 7, “Creating Cut Features and Inspecting Models,” introduces methods for creating various cut features: extrude cut, thin extrude cut, revolve cut, and thin revolve cut. The chapter also describes various methods for navigating a 3D model, customizing the mouse interaction, manipulating the view orientation of a model, changing the visual style of a model, and adding special effects.Ĭhapter 6, “Creating Reference Geometries,” introduces various methods for creating additional reference planes, axes, and points. It also explains how to delete a constraint, control the visibility of applied constraints and dimensions, control the size of constraint symbols, apply dimensions automatically, edit a dimension, define tolerance for a dimension, and delete a dimension, in addition to the different states of a sketch.Ĭhapter 5, “Creating Base Feature of Solid Models,” discusses how to create extrude, thin extrude, revolve, and thin revolve base features. It also introduces creation of 2D sketch fillets, 2D sketch chamfers, and reference entities.Ĭhapter 4, “Applying Constraints and Dimensions,” introduces various types of constraints and dimensions. It also introduces different methods for drawing lines, rectangles, circles, arcs, ellipses, elliptical arcs, polygons, and splines in addition to editing a spline and creating single or multiple instances of pre-defined standard sketch shapes such as round, square, obround, and rectangle.Ĭhapter 3, “Editing and Modifying Sketches,” introduces various editing and modifying commands that include trimming, extending, intersecting, mirroring, patterning, offsetting, moving sketch entities, creating a copy of sketch entities, rotating entities, creating text, and adding nodes. It covers the following:Ĭhapter 1, “Introduction to Alibre Design,” introduces Alibre Design interface, system requirements for installing Alibre Design, different workspaces, various components of startup user interface, and methods to display right-click menu, create a custom color scheme, change the Ribbon color scheme and display state, export files to neutral CAD formats, publish a design to a 3D PDF file, save, open, and import files.Ĭhapter 2, “Drawing Sketches with Alibre Design,” discusses how to invoke the Sketch Mode, and specify units, grids, and snap settings. I have not seem what Alibre offers for the student pack.Alibre Design: A Power Guide for Beginners and Intermediate Users textbook is written to help you understand all you need to know to get started with Alibre Design with in-depth tutorials. The Rhino student version is identical in every way to the full version. If you have a Kid in college buy him/her a student copy of Rhino ($200). Rhino and Alibre both have substantial discounts for students. There are probably fancier definitions out there, but that will do for now. If you make a change to any parameter ( example change the hole size) the program data base automatically update that part and every other part it attaches to so they all fit. What is parametric (for those that don't know)? Parametric CAD keeps an internal database of how each part is made and in what order. I feel that there is nothing that Solidworks or Pro-E can do that can't be done in Alibre. It is one of the best cad values out (although lately the price is creeping upward). Lofting is also easier.Īlibre is a Parametric 3D package and does assemblies without thinking about it. I find it easier to draw a non conventional shape in Rhino. However Rhino is an Organic 3D program (probably the best one in my opinion. Rhino is not a parametric 3D software program although it can do 3D drawings it is not designed to do assemblies of large parts. I think they are both great but I use them differently. I got Rhino first and then bought Alibre.
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