Search CNC Information

Pick Your Native Language!

Untitled Document English CNC Information Arabic CNC Information Bulgarian CNC Information Chinese (Simplified) CNC Information Chinese (Traditional) CNC Information Croatian CNC Information Czech CNC Information Danish CNC Information Dutch CNC Information Finnish CNC Information French CNC Information German CNC Information Greek CNC Information Hindi CNC Information Italian CNC Information Japanese CNC Information Korean CNC Information Norwegian CNC Information Polish CNC Information Portuguese CNC Information Romanian CNC Information Russian CNC Information Spanish CNC Information Swedish CNC Information решебник по английскому тетрадь биболетова гдз по русскому ладыженская ссылка програмы для перехвата смс тут гдз по английскому 2 класс тут справочник телефонов и адресов в одессе Дженерик Дапоксетин Витаев | Поиск по имени sitemap
Mechanical CAD | CAD Trends E-mail
User Rating: / 1
PoorBest 

Mechanical CAD today: software innovations accelerate the mechanical design process

Don LaCourse

When I was asked to write about the state of the mechanical CAD industry, I was more than a little reluctant to parade the usual charts and graphs that show statistics and market growth for the well-known CAD developers. Such reporting is better left to industry analysts such as Daratech (www.daratech.com), who do it so well and so often. However, I did check in with many mechanical CAD developers, and all report double-digit percentage increases in sales from this time last year. There is a clear consensus that the economy has completed its rebound and is on the rise.

If you follow my columns, you know that I write from the perspective of those using and managing the mechanical CAD application. Don't get me wrong--charts and graphs serve a very important purpose, but you don't need them to know that mechanical CAD is alive, well, and better than ever. Just look at the applications today and remember what it was like even a few short years ago. Here are some things that clearly make mechanical CAD what it is today--I bet you're already taking them for granted.

[FIGURES 1-2 OMITTED]

Object-based Context Sensitivity

Not too long ago, you wasted a lot of time locating commands buried deep within the menu hierarchy. You needed to know and understand what menu selection to make to perform a given task, such as applying draft to a face. Today, object editing removes the guesswork by displaying only the applicable commands when you select or highlight an object such as Offset, Draft, and Extend when you select a face.

This object-based context sensitivity is now widely used in mouse-driven pop-up menus, pull-down menus, and all dialog boxes. Today's mechanical CAD applications understand what you need at any given time and even try to anticipate what you will or may need soon.

In many instances, you can bypass the menu structure, saving precious design time.

Integrated Design Environments

Mechanical CAD is defined today by its ability to deliver integrated and highly specialized design environments that were once the sole domain of third-party applications (figure 3, p. 52). Designers are fortunate to have the most common tasks almost completely automated. For mold designers, defining complex parting lines, separations for core and cavity regions, and slide, insert, and cooling designs take a fraction of the time previously required. That's not to mention complete mold base assemblies that you can create on-the-fly from built-in parametric libraries.

[FIGURE 3 OMITTED]

For sheet-metal designers, today's mechanical CAD applications save enormous amounts of time by providing a command for virtually every common sheet-metal feature, including flanges, dimples, louvers, and corners. What previously took ten commands and 45 minutes to model now takes one command and five minutes (figure 4). Productivity is increased tenfold. Such super features aren't exclusive to sheet-metal design. You can also find them for injection-molded part design.

[FIGURE 4 OMITTED]

Other sheet-metal tasks are also automated or integrated, such as folding and unfolding for flat-pattern creation and K-factor compensation (figure 5). K-factor is a ratio based on the expansion and compression properties for a given material. It's used to define the location of the neutral axis within the thickness of the sheet metal for bending.

[FIGURE 5 OMITTED]

Self-Analysis and Topology Healing

I've written extensively on the subject of data exchange and how data loss and topology errors are commonly introduced during data translation. This thorn in the side of 3D CAD has caused the loss of immeasurable amounts of time and money. Today, mechanical CAD is further defined by its ability to meet this problem head on and in many cases overcome it.

Mechanical CAD applications provide the tools needed to analyze and heal the most common topology problems that can stop design and development in its tracks. I'm talking about missing surfaces, edge mismatches, cracks, and gaps--just to name a few. Many applications even perform topology healing automatically during imports.

The State of the Union

The next time you wonder about the state of mechanical CAD, remember how far the technology has come. The economy and mechanical CAD sales may rise and fall, but the heart and soul of mechanical CAD, the applications themselves, only get better.

Don LaCourse ( This e-mail address is being protected from spam bots, you need JavaScript enabled to view it ) has spent the last 25 years working with and writing about CAD/CAM operations. He is a Cadalyst contributing editor and principal partner of eDocHelp (www.edochelp.com), an e-documentation, online help, and technical writing services firm in Cookeville, Tennessee. eDocHelp is a Gold Star sponsor of www.3DCADTips.com.

COPYRIGHT 2004 Advanstar Communications, Inc.
COPYRIGHT 2005 Gale Group


Tags:  CNC Software CAD Software CAM Software CAD Mechanical CAD CAD Trends
 
< Prev   Next >
CNC Information