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Mastering Autodesk Inventor 2014
mastering autodesk inventor 2014






















  1. Mastering Autodesk Inventor 2014 Download And Setup#
  2. Mastering Autodesk Inventor 2014 Download Or Read#

Mastering Autodesk Inventor 2014 Download Or Read

Sheet MetalMastering Autodesk Inventor 2014: Autodesk Official Press. This site is like a library, Use search box in the widget to get ebook that you want.Mastering Autodesk Inventor 2015 and Autodesk Inventor LT 2015 (2014) Chapter 6. Click Download or Read Online button to get Mastering Autodesk Revit Mep 2014 book now. Download Mastering Autodesk Revit Mep 2014 PDF/ePub or read online books in Mobi eBooks. Infiniteskills - Mastering Autodesk Inventor - T-Splines Video: 297.3 MB: 6: Z: Mastering Autodesk Inventor 2014 PDF Ehhhh Application: 49.7 MB: 4: Z: Mastering Autodesk Inventor All Courses 4.5 GB: 4: Z: Curtis Waguespack - Mastering Autodesk Inventor 2014 and Autodesk Inventor LT 2014 - 2013.pdf Application: 56.3 MB: 3: ZMastering Autodesk Revit Mep 2014.

The Autodesk ® Inventor LT ™ program does not include the sheet-metal tools discussed in this chapter.Mastering Autodesk Inventor 2009 And Autodesk Inventor Lt 2009 by Andrew Faix,Bill Bogan,Bob Van Der D,Curtis Waguespack,Dennis Jeffrey,Loren Jahraus,Sean.Mastering Autodesk Inventor - T-Splines. However, a mastery of some basic fundamentals in sheet-metal tools can make Inventor sheet metal straightforward and highly integrated with your manufacturing environment. When you first begin working in the sheet-metal environment, you may feel overwhelmed because the tools and methods you have become familiar with to create other parts in Inventor do not yield good results in the sheet-metal file. Autodesk Inventor has been used to design everything from cars and airplanes to appliances and furniture.The sheet-metal functionality in the Autodesk ® Inventor ® program is an extremely powerful toolset, centered on productivity and capturing your manufacturing intent. An Autodesk Official Press guide to the powerful mechanical design software.

Understand sheet-metal templates and rules Take advantage of the specific sheet-metal features available in Inventor Mouseover grounded constraint visibility, Model & assembly simplification, Joint constraints. O’Reilly members get unlimited access to live online training experiences, plus books, videos, and digital content from 200+ publishers.Mastering Autodesk Inventor 2014 and Autodesk - Amazon.fr. Explore a preview version of Mastering Autodesk Inventor - T-Splines right now.

mastering autodesk inventor 2014

A basic sheet-metal part consists of flat faces joined by bends. To create a sheet-metal part, you can use the Sheet Metal.ipt template or simply click the Convert To Sheet Metal button on the Environments tab of a standard part file.To understand how sheet-metal parts work, it is important to keep in mind that sheet-metal design is driven by manufacturing considerations. Ipt filename extension is used for sheet-metal parts, but extra sheet-metal capabilities and data are added.

For example, you can change a bend to a corner seam simply by right-clicking the bend in the browser and selecting Change To Corner from the context menu.The Inventor sheet-metal environment contains numerous specialized tools to help you design components that follow your sheet-metal-manufacturing guidelines and process restrictions. The sheet-metal tools simplify the process of creating and updating models. These sheet-metal-specific styles are referred to as a sheet-metal rule.Many sheet-metal parts are brackets or enclosures designed to fit a particular assembly. If you have to make a change, such as a different material thickness or bend radius, you can select a different style and the part automatically updates. This saves you considerable time during design because the features automatically use the settings in the predefined style. The sheet-metal template style contains the sheet thickness, bend, and relief information in a rule, and the style is then used during modeling.

The profile can be constructed out of any shape and can even contain interior profiles, as shown in Figure 6.1. The following tools can create base features:The Face tool is the simplest base feature it utilizes a closed profile to produce a simple extrusion with the height automatically set to the Thickness parameter value. Base features are simply the first features that appear in the feature history. Once you understand how the features work, you will be able to build models that capture your design intent.Out of all the sheet-metal tools provided, only four create what are referred to as base features.

Click the Get Started tab and choose Open.2. Using the Contour Flange tool has one drawback, however: Since you are combining many features, you lose some flexibility for revising the shape.Follow these steps to explore the basics of creating a base feature with the Contour Flange tool:1. Although you could create the part shown in Figure 6.2 by using the Face tool and then adding flanges, it would be more time-consuming. To create base features with a profile sketch, contour flanges have a width extent option called Distance, which allows a simple open profile to be utilized to create a sheet-metal condition extrusion of the thickened, filleted profile.You can use the Contour Flange tool to create sheet-metal base features in fact, it is often the fastest way to create them. Profile sketches should contain only arcs and lines if sketch intersections are not separated by an arc, a bend equal to the BendRadius parameter will automatically be added at the intersection, as determined by the sheet-metal rule.

Mastering Autodesk Inventor 2014 Download And Setup

Also notice that the corners at each end of the 25 mm leg are automatically rounded even though no radius was specified in the sketch. For the Profile selection, click anywhere along the sketch profile.Depending on where you clicked on the sketch, the preview will show either the outside or inside of the sketch. Select the Contour Flange tool from the Create panel of the Sheet Metal tab.4. If you have not already downloaded the Chapter 6 files from please refer to the “What You Will Need” section of the introduction for the download and setup instructions.3.

Enter 6 mm in the Bend Radius input box, and notice that the corners at each end of the 25 mm leg are updated.Entering a value in the Bend Radius input box overrides the predefined BendRadius parameter and sets this contour flange feature to always use 6 mm. Then set the side so that the preview is to the inside of the sketch profile (as in Figure 6.2) and therefore holding the overall dimensions of the sketch.6. Use the Flip Side buttons (three arrow buttons) to change the preview so you can see how each changes the result.

Click the Distance Mid-Plane button so the part is created equally to both sides of the sketch.10.Click the OK button to create the feature.In the preceding steps you created a base feature using an open profile sketch and the Contour Flange tool. Use the ViewCube® to change the view so you can see the direction of the contour.9. Click the button to expand the Contour Flange dialog box (if it isn't already expanded) and then set the Distance input box to 150 mm.8.

Select the Contour Roll tool from the Create panel of the Sheet Metal tab.4. Open the file mi_6a_002.ipt from the Chapter 6 directory of your Mastering Inventor 2015 folder.3. The rolled hat flange in Figure 6.3 was created using the simple sketch geometry shown.Follow these steps to explore the basics of creating a base feature with the Contour Roll tool:2. Sketch geometry is limited to lines and arcs, and the Contour Roll tool will automatically add a bend at line intersections. To create a contour roll, you sketch an open profile, but you revolve it instead of extruding it. For now, though, you can close this file without saving changes and continue looking at other tools used to create base features.The Contour Roll tool is a variation of the Contour Flange tool.

Custom Cylinder This allows you to select a sketched line to define the cylindrical neutral surface. The neutral radius and unrolled length are displayed.2. Centroid Cylinder The neutral cylindrical surface is derived by the centroid location of the profile, based on the selected axis. Select the centerline for the Axis selection.Note the options in the Unroll Method drop-down box:1. For the Profile selection, click anywhere along the sketch profile.5.

You'll notice that the displayed unrolled length adjusts based on the change.8. Set the unroll method to Neutral Radius and enter 60 mm in the input box. Note the displayed unrolled length.7. Set the unroll method to Custom Cylinder and select the sketch line denoted as Custom Neutral Axis for the Neutral Axis selection. Neutral Radius This allows you to enter the neutral radius and displays the adjusted unrolled length.These options all derive the developed length by multiplying the rolled angle by a neutral radius but differ from one another by the type of input specified.6. Developed Length This allows you to enter the developed length and displays the adjusted neutral radius.4.

Click the OK button to create the feature.10.Click the Create Flat Pattern button on the Sheet Metal tab.11.Right-click the Flat Pattern node in the browser and choose Extents. You'll notice that the displayed neutral radius adjusts based on the change.9.

mastering autodesk inventor 2014