Ally PLM's presentation of Design Configuration using Excel and the Variable Table at SEU 2015

Ben Weisenberger gave an outstanding standing-room only presentation, Design Configuration using Excel and the Variable Table, at this year's Solid Edge University 2015 in Cincinnati, Ohio. Ben's presentation shows how the variable table and Excel can help make consistent changes among the different parameters.

Watch it now:

Ben Weisenberger is an Application Engineer at Ally PLM Solutions with more than 5 years of Solid Edge experience.

Tracy Tijan
Marketing Director
Ally PLM Solutions

Elephant designs better with Solid Edge

Innovation consultant attains faster, more accurate designs with Solid Edge (Siemens PLM Software). Other results included better decision making at the design stage, problems detected and corrected early, saving development time and an increase in business opportunities. “We are able to get more customers with these visualization tools as we can showcase more options,” said Designer Anand Palsodkar.

Learn how
http://www.plm.automation.siemens.com/en_us/about_us/success/case_study.cfm?Component=76591&ComponentTemplate=1481

Try Solid Edge for free

http://allyplm.com/solidedgetrial/

Learn how Solid Edge can save you time on design and development at http://allyplm.com/solidedge/ or sign up for an informative webinar at http://allyplm.com/futureofcad/

Hyundai Motor Co. designs better with Solid Edge

The automotive OEM jig and fixture department easily handles large assembly design with Solid Edge (Siemens PLM Software). Hyundai developed libraries and an automation program to enhance the productivity of jig design. The company also can share design libraries with other automotive component suppliers.

Learn how
http://www.plm.automation.siemens.com/en_us/about_us/success/case_study.cfm?Component=56028&ComponentTemplate=1481

Try Solid Edge for free

http://allyplm.com/solidedgetrial/

Learn how Solid Edge can save you time on design and development at http://allyplm.com/solidedge/ or sign up for an informative webinar at http://allyplm.com/futureofcad/

Ally PLM Application Engineer to present at Solid Edge University 2015

Ben Weisenberger, Application Engineering Manager at Ally PLM Solutions Inc., will be presenting at Solid Edge University 2015, the single most important event Solid Edge users can attend.

Ben's presentation entitled Design Configuration using Excel and the Variable Table will help you take the guess work out of changing parameters. Whether it is changing the size of a part, location of a part in the assembly, suppressing features, or managing formulas, the variable table and even Excel can help make consistent changes among the different parameters.

Solid Edge University 2015 provides 2 full days of workshops, presentations and technical sessions. Learn about the speakers and additional presentation descriptions and don't miss Ben's presentation on Tuesday, October 27 at 3:30 PM in Room 237/238.

If you haven't already registered, be sure to register today!

NX Tip of the Week October 16

NX Tip of the Week
October 16, 2015

NX - Using the In Process Workpiece for

Multiple Setups in NX CAM

You can use the In Process Workpiece (IPW) for multiple setups in NX CAM making programming easier and more efficient.  Using the IPW as Blank Geometry can help you visualize the material that has already been cut and also allow NX to create very efficient operations without excessive tool path motion.  The steps below will show the process for using the IPW in a part that requires multiple setups.

1)  The part starts out with the blank defined using a bounding block:

2)  After the operations on the first setup have completed the IPW looks like this:

3)  Now I will use the IPW option to define the blank for the second setup:

4)  Select Source for IPW:

5)  Use the WORKPIECE from the first setup:

6)  Use the Update button to load the IPW from the first setup:

7)  Notice the IPW displays with the operations from the first setup complete:

8)  This shows the second setup operations have been completed and now the IPW is ready for the third setup:

Thank you,

Chad Varney

Application Engineer

Ally PLM Solutions, Inc.

Want more tips? Sign up HERE to receive our Tip of the Week.

Register for upcoming free NX webinars or learn more about Ally PLM Solutions.

Space Dynamics Laboratory designs better with Solid Edge

Space-borne instruments research and development company dramatically improved project turnaround with Solid Edge (Siemens PLM Software). Using synchronous technology in Solid Edge, the company gained a 30-fold improvement in fixing open surfaces from vendor files, with gaps now resolved in minutes versus hours. Other results included faster responses to project requests and greater customer satisfaction.

Learn how
http://www.plm.automation.siemens.com/en_us/about_us/success/case_study.cfm?Component=93330&ComponentTemplate=1481

Try Solid Edge for free

http://allyplm.com/solidedgetrial/

Learn how Solid Edge can save you time on design and development at http://allyplm.com/solidedge/ or sign up for an informative webinar at http://allyplm.com/futureofcad/

NX Tip of the Week October 9

NX Tip of the Week October 9, 2015

NX - Surfacing Tools Hello everyone - In this week's Ally PLM Tip of the Week, we will take a look at a few different surfacing tools within NX.  I'm defining surfacing tools as any tool required to get more than just a simple shape; more than just extrude or revolve.  The underlying curves are what give the surface definition.  The surface is only as good as the underlying curves.  You may have asked yourself, which surfacing command should I use to create my desired shape?  For example, if we are trying to loft a shape from section to section, you may be trying to determine the difference between Through Curves and Through Curves Mesh.  We will look at the requirements for some of these commands as well as some of the options.  All of these commands have the option to create a solid or sheet (surface) in the settings.  When defining a surface we look at something called U and V lines.  U and V lines are the definitions for a surface.  Imagine you take a surface and mesh it.  The lines in one direction will be U direction and the lines perpendicular to the U lines will be V lines. Typically, when we are defining the curves to create our surface, sections will be in one direction (U direction) and the cross curves will be in the other direction (V direction), for example. Let's take a look at some of these commands: 1) Ruled Surface Ruled surface requires two sections and only two sections.  The result uses a lofting technique from one section to the other. 2) Through Curves  Through Curves requires a minimum of two sections, but can have more than two.  This is a lofting technique that can do more than two sections. 3) Through Curves Mesh  Through Curves Mesh requires a minimum of two sections, but can have more than two.  It also requires a minimum of two cross curves, but can have more than two.  Cross curves are typically defined in the perpendicular direction to the section inputs.  This technique lofts from section to section and applies the cross curve definitions in the other direction.  The cross curves must be connected to the sections. 4) Studio Surface  Studio Surface is similar to Through Curves Mesh as far as definition.  It produces swept for lofted features from a network of section strings, or a network of section strings and up to three guide strings.  It requires at least two inputs.  It can be two sections or one section and one guide/cross curve at minimum.  Studio Surface also has some other options for flexibility within the feature.  Studio Surface can create lofted shapes or swept shapes within the same command. Studio Surface also previews as soon at two inputs are defined.  The cross curves do not have to be connected to the cross sections to get a result.   Studio Surface has an option called "Switch Strings" which can toggle your U and V line definition curves:  5) Sweep Along Guide  Sweep Along Guide requires one section and one guide curve.  It takes the section and sweeps it down the guide definition. 6) Tube  Tube just needs a path definition.  The cross section is determined to be circular with tube parameters included. 7) Swept Swept takes a cross section definition and sweeps it along a path.  It can have multiple sections but only up to three guide strings.  In the screen shot below, the section and guide curve is not connected.  They do not need to be connected for the swept algorithm. 8) Variational Sweep  Variational Sweep takes a profile and sweeps it between two curves or surface edges.  Because it is a sweep, the sketch section is created with the on path option.  How the sketch is connected to the surface edges/curves determines its sweep path.  It varies as it transitions between the input curves.  You can sweep faces that are coincident, tangent, or normal to other curves and faces, add secondary sections to vary dimensions at specific locations, or extend the body beyond the length of the path or limit it. In this Ally PLM Tip of the Week, we took a look at some of the requirements for the different surfacing tools.  This information can help you pick the proper feature for your desired surface requirement. Brandon Carter Senior Application Engineer Ally PLM Solutions, Inc. Want more tips? Sign up HERE to receive our Tip of the Week.  Register for upcoming free NX webinars or learn more about Ally PLM Solutions.

Modern Mechanical Fab designs better with Solid Edge

Design and fabrication specialist reduces outsourced engineering services 50 percent with Solid Edge (Siemens PLM Software). The use of Solid Edge and the Solid Edge Simulation module also helped Modern Mechanical to increase engineering collaboration by 25 percent and reduce material costs by 10 percent. “I view the purchase of Solid Edge just like any other profit-generating piece of equipment. I have seen a great return on my initial investment in engineering time saved as well as an increased level of confidence that we can provide to our customers,” said John Trombly, general manager.

Learn how
http://www.plm.automation.siemens.com/en_us/about_us/success/case_study.cfm?Component=95610&ComponentTemplate=1481

Try Solid Edge for free

http://allyplm.com/solidedgetrial/

Learn how Solid Edge can save you time on design and development at http://allyplm.com/solidedge/ or sign up for an informative webinar at http://allyplm.com/futureofcad/

Solid Edge Tip of the Week October 2

Solid Edge Tip of the Week October 2, 2015

Solid Edge - Feature Library

In this week's tip, we will be taking a closer look at the Solid Edge Feature Library.  Not only can the feature library be used to pull in completed parts but also previously created features in Solid Edge.  This is especially useful to help reduce design time when frequently using the same features.

A feature library entry may contain any of the following synchronous elements:

• Features
• Faces
• Sketches
• Planes
• Coordinate systems
• Constructions

**Note:  You can only place a synchronous feature library member while in the synchronous environment.

You can add to the feature library from the Ordered environment.  The only ordered element you can add is a feature.  When placing an ordered feature in the feature library, the attributes for the feature are maintained.

A feature library entry cannot contain a mixture of synchronous and ordered elements.

**Note:  You can only place an ordered feature library member while in the ordered environment.

For Ordered:

1)  With the part model open, on the left side of the screen you will see the feature library tab.  Open this and create a Feature Library folder:

2)  In the Pathfinder for your model hover over the feature you wish to copy into the feature library to quickly reuse in future models and select "Copy": 

3)  Now, once again in the feature library tab, select paste to put this feature in your feature library folder: 

4)  Upon pasting you will notice that the Feature Set Information dialog box is displayed.  You can use the Feature Set Information dialog box to review the feature elements which were captured, review their status, and define custom prompts and notes for when you later place the library member.

Notice in the picture below that there are three elements indented under the Cutout 1 row: a Profile Plane and two Dimensions. Also, notice the Status column. When you later place the library member, you must define a planar face or reference plane because its status is listed as Required. The two Dimensions have a status of Optional. When you later place the library member, you can define new edges for the dimensions or you can skip them, and define the edges later:

5)  To pull the created feature into a new part, open the Feature library and drag the feature you created previously into the graphic window.

6)  Notice after dragging in the feature that the first row in the Feature Set Information dialog box is active, which requires that you define a profile plane.

7)  After selecting the appropriate plane, you will notice that the Status in the Feature Set Information dialog box is now changed to "Defined".   You can now do the same thing with your dimensions.  After doing this, these, too, will be "Defined":   

8)  Once these have been defined you will notice the feature you saved to the Feature library is now present on your model.  This has saved a lot of design time by not needing to recreate the cutout you used on another model.

For Synchronous Modeling:

Synchronous Modeling does not require the use of the Feature Set Information Dialog box. Saving your feature follows the same steps as Ordered Modeling but placing it is slightly different.  In Synchronous, you drag in the feature then locate it using the Steering Wheel.  The feature is not placed until you have clicked in the appropriate location.

I hope you found this information helpful! Thanks, Nathan Pfeiffer Application Engineer Ally PLM Solutions, Inc.  Want more tips? Sign up HERE to receive our Tip of the Week.