GibbsNews Summer 2010 Issue
Transcription
GibbsNews Summer 2010 Issue
GibbsNews VOLUME XXI • ISSUE III SUMMER 2010 READ MORE g In This Issue: m m DEVELOPMENT UPDATE PAGE 2 | GO THERE g GIBBSCAM DEMONSTRATED AT HAAS DEMO DAYS m m m PAGE 5 | GO THERE g CUSTOMER SPOTLIGHT PAGE 6 | GO THERE g CUSTOMER SHOWCASE PAGE 9 | GO THERE VIDEO SHOWCASE PAGE 9 | GO THERE g m TECH TIP: PLUNGE ROUGH PROCESS m PAGE 10 | GO THERE g UPCOMING EVENTS PAGE 12 | GO THERE g www.GibbsCAM.com Greetings from Gibbs, and from the Cimatron Group BY BILL GIBBS, FOUNDER & PRESIDENT, GIBBS & ASSOCIATES It’s hard to believe that it’s almost time for the 2010 IMTS show (Chicago, September 13-18). Since most of you cut metal for a living, it is very possible that machine tool shows are not as big a deal for you as they are for me. I get to look forward to occupying a booth near our competitors where we try to out-hustle them at attracting new prospects to take a look at our fine CAM products. Then there is “the Press” who stop by to ask about the future of CAM and “what’s new” in GibbsCAM. But the high point of the show experience is when existing customers drop in and say “hi”. Really. It is a treat to meet and chat with those of you who have the time. Our booth is continually staffed with people who are experts in GibbsCAM. As we do at all shows, we are inviting our customers to stop in our booth (E-3810) for a bit of concentrated training/tech support at no charge. Bring your questions and drop in for some one-on-one assistance, or ask for a preview of GibbsCAM 2011, our next major release. Or just drop in to say “hi”. Or any combination. It’s your choice. We are sharing our larger booth space this year with the CimatronE product. Both GibbsCAM and CimatronE are CAD/CAM products that are part of the Cimatron Group. CimatronE is excellent at Mold & Die, with integrated design and CNC manufacturing. GibbsCAM is excellent at production CNC part programming for a wide range of machine types, handling parts from a wide range of CAD systems. Between the two of us there isn’t much we cannot provide a solution for. I look forward to seeing you in Chicago. Development Update | PAGE 2} This article expands on a few gaps in last newsletter’s Update, which focused on “Development Futures” – GibbsCAM features that are nearing completion of the Research and Development phase. Of course, when we say “gaps” we mean it in the literal sense — Holes. Boring, you say? Why yes. But also reaming, drilling, tapping, and so forth. The Hole Truth Various CAD and CAM systems treat holes in various ways, ranging from the very simplest (subtracted cylinders) to the most powerful (dozens of exotic hole types, each with its own special attributes and parameters). GibbsCAM prides itself on being both simple and powerful. Our goal for the future is to make it even simpler where possible and even more powerful where useful. Let’s start with the simplest enhancements and work towards the most powerful. Simple Once more, from the end. When you’re making multiple passes over dozens or hundreds of holes, you want to minimize unnecessary moves. A simple checkbox will now allow you to reverse the machining order Pick me! It should be easy to tell GibbsCAM to find and select holes that meet your criteria. Five new hole-selection options will make it simpler: • Select Face Holes AFR – Runs Automatic Feature Recognition to recognize and select all candidate holes touching the face(s) you specify. • Select CS Holes AFR – Runs AFR to recognize and select all candidate holes aligned with the coordinate system you specify. • Select Face Hole Features –Selects all existing Hole Features touching the face(s) you specify. • Select CS Hole Features – Selects all existing Hole Features aligned with the coordinate system you specify. • Select Hole Features From Faces – Selects all existing Hole Features containing the face(s) you specify. (Although the last newsletter showed these as Plug-In options, they will very likely move to more appropriate locations in the future, such as options under Edit and right-mouse context menus.) Simple and Powerful Sorceror’s apprentice. If you like the idea of a Hole Wizard but dislike having it pester you for details, then Hole Manager’s new Auto Wizard is for you. For people who set their AutoWiz preferences to fully automatic, a simple three-click sequence will recognize and group hundreds of holes and generate operations for them all: 1.Run AFR (or Load for models with existing features) will recognize/create/load all Hole Features in accordance with your preferred data and option settings, instead of asking you for manual intervention. You can even run AFR on multiple solids at the same time. 2.Auto Group will create all groups in accordance with your preferred grouping parameters. 3.Hole Wiz lets you select all groups and will automatically create all necessary tools on the fly to build all processes and operations. www.GibbsCAM.com CONTINUED ON PG. 3 | GO THERE Development Update | PAGE CONTINUED FROM PG. 2 3} Featuring holes from SolidWorks. Feature recognition and preservation will reach new heights (or, in the case of Hole Features, new depths) when you transfer SolidWorks models to GibbsCAM: • The model’s attributes are read, recognized and preserved as attributes in the GibbsCAM part. • The SolidWorks-assigned colors are preserved as CAD Colors in the GibbsCAM part. • The model’s hole features are interpreted as Hole Features in the GibbsCAM part. Powerful: Custom Drill Cycles For GibbsCAM users with advanced wizarding talents, this enhancement will confer ultimate power. For the rest of us, results can range from super-amazing to ho-hum, depending on how much effort has gone into the wizard craft. Here’s how it works. The Wizardry behind the curtain. This part is for very advanced users only. You will need to be thoroughly familiar with writing macros, and you will need to create a custom MDD. Don’t allow your creation to fall into the hands of end users without having done extensive testing of all its pieces in a safe environment. Step 1: Create macros and dialogs to perform whatever task or tasks you want your end users to be able to accomplish within the Holes process. For example, a fairly simple set of Variable Peck macros might have a dialog that prompts the end user to specify either a set number of pecks or a peck depth, and then calculates values to pass to a toolpath-generation macro. A more complex macro might look at the currently active material and tool diameter and branch appropriately to retrieve Excel spreadsheet data for feedrate, dwells, and spindle speeds. The macro also knows the depth of each hole selected, so the resulting cycle could have a different number of pecks for each hole – it all depends on how your macro uses the data to calculate the toolpath. A macro can do anything you program it to do. www.GibbsCAM.com CONTINUED ON PG. 4 | GO THERE g Development Update CONTINUED FROM PG. 3 | PAGE 4} Step 2: Gather all files needed by your macros – these might include *.mac, *.dlg, *.xls, and *.bmp files – into one folder. It’s good practice to name the folder something that conveys both the MDD the macros expect and also the macros’ nature. A good example of such a folder name would be VMill3a_CustomDrillCycles. Note that custom drilling cycles can be added to Lathes as well as Mills. Step 3a: Use Machine Manager to create a new MDD of corresponding type (such as 3-Axis Mill) and corresponding filename (in this case, VMill3a_CustomDrillCycles.mdd). For the MDD’s menu name, provide something appropriate for the end user (e.g., “3Axis Mill - Custom Drilling Cycles”). Step 3b: Click the Machining Prefs tab and, in the Extended Drill Cycles area, click Add. Then, choose one of the Custom options and provide a name for your custom drill cycle – in this case, “Mike Cycle 2”. Step 3c. Repeat step 3b as needed, for up to eight custom drill cycles. When you are done, save the MDD. Waving the wand. This part is for ordinary end users who are the beneficiaries of the preceding wizardry. Step 1: Open a part you want to machine. If necessary, use the Document Control Dialog (DCD) to point at the appropriate machine type – in this case, “3Axis Mill - Custom Drilling Cycles”. Step 2. In the Holes process, Drill tab, under Entry/Exit Cycle, choose the final option button to open the pull-down menu. Select one of the custom drill cycles that appear towards the end of the list – in this case, “Mike Cycle 1”. Step 3. Click the User Cycle Data button. This invokes the macro corresponding to the selected pull-down option. What happens after that depends on the functionality programmed into the macro. The glory or blame belongs to the person who created it. All of these Hole Features – and other upcoming GibbsCAM 2011 features – will be previewed at our IMTS booth, E-3810. Drop in for a deep dive if you can. www.GibbsCAM.com GibbsCAM Demonstrated at Haas Demo Days | PAGE 5} Gibbs has maintained an excellent partnering relationship with many of the world’s foremost machine tool manufacturers, including Doosan, Haas, Mazak, Mori Seiki, Nakamura Tome, Tornos and Wilemin. Industry pundits claim that Haas manufactures the largest number of CNC machines in the world. Gibbs was excited to have been invited to participate in numerous Haas Factory Outlets (HFOs) Demo Days around the United States on June 2nd to demonstrate how GibbsCAM can optimize the programming and efficiency of Haas CNC machines. Demo sites included: • HFO Little Rock in Little Rock, AR • HFO Kansas City in Kansas City, KS • Ellison Machinery in Tempe, AZ • HFO Greensboro in Colfax, NC • HFO Torrance in Torrance, CA • HFO Rochester in Fairport, NY • Selway Machine Tool Company in Union City, CA • Timco Machine Tools, Inc. in Broken Arrow, OK • HFO Trident in Windsor, CT • HFO Nashville in Nashville, TN • King Machine, Inc. in Meridian, ID • Champions Machine Tool in Austin, TX • HFO Chicago in Chicago, IL • Champions Machine Tool in Houston, TX • HFO Midwest in Indianapolis, IN • Gosiger, Inc. in Brookfield, WI “I’ve known Haas since before they made CNC machines,” said Bill Gibbs, Gibbs and Associates company founder and president. “Gibbs has been supporting Haas customers, and Haas corporate as a customer, ever since. It’s rather amazing what Haas has grown into today, simply the leading manufacturer of CNC machines in the world. We at Gibbs are proud to maintain our support of Haas by participating in their Demo Days events.” Live demonstrations of GibbsCAM 2010 showcased how easy it is to create efficient CNC programs for Haas machine tools. The GibbsCAM Advanced 3D High Speed Machining (HSM) and 5-Axis modules were featured, together with post-processors that support all Haas machine tools. Additional GibbsCAM options were demonstrated, including GibbsCAM TMS (Tombstone Management System), which was originally developed to support Haas’ internal tombstone programming needs with an efficient layout and programming method for tombstone-fixtured parts. The Advanced 3D HSM module comprises multiple machining methods specifically developed for multi-surface hard milling and high speed machining in SolidSurfacer®. This feature provides high quality surface finishes that reduce or eliminate the need for polishing. The various machining styles are useful for multiple applications and offer smooth entries, exits and cutting motions, with steep or shallow angle limits, rest machining, tool-holder collision checking, and options for changing cutting style. These styles include Contour, Constant Stepover Cut, Flats Cut, Lace Cut, Intersections, Automatic Core Detection, and enhanced Pocketing routines. www.GibbsCAM.com The GibbsCAM 5-Axis module provides multi-surface 5-axis roughing and finishing; multi-surface, 5-axis, flow-line machining; surface edge 5-axis swarf cutting (typically for trimming vacuum-formed parts); adaptable interface, based upon part-type strategy, which shows only what is needed; advanced gouge checking to ensure safe cuts even in most complex operations; complete control of entry, exit, cut-to-cut and between-cut motion; 5-axis depth cuts machining; and integration with the GibbsCAM Machine Simulation module for complete toolpath verification and simulation of all of the machine’s moving components. Attendees were impressed how GibbsCAM and NC programming productivity go hand in hand. Customer Spotlight | PAGE 6} Multitasking Software Turns a Profit Chuck Paul is an optimist who believes hard work will keep operations running through the worst business cycles. He founded Paul Precision Machine (Tulsa, OK) with a conventional lathe and a conventional mill in his garage in 1978. Three years later he purchased a 4000 ft2 (372-m2) building, and in 1988 he moved into his current 18,000 ft2 (1672-m2) facility. In the best of times, he employed over a dozen workers. “In the worst, 1983,” Paul admits, “the shop was reduced to another machinist and me.” Today, Paul Precision Machine has 12 employees, nine of them in the shop. Paul feels fortunate to have grown up using carbide and HSS in his teens, then experiencing the evolution of tooling and CNC machines his shop uses today. “Even through tough times, it has been a great ride,” he says. “I just love it.” In 1996, the shop faced nearly simultaneous challenges. The first involved a start-up natural-gas compressor manufacturer that became his customer. The shop got busy making many prototype parts. The second challenge involved larger CNC lathes that required frequent service. Parts had to be ordered overseas, with long delays. To complicate things, Paul’s CAM software supplier ceased operations. Unable to afford waiting for repairs, Paul Precision Machine started replacing old lathes with Puma turning centers from Doosan Infracore America Corp. (West Caldwell, NJ). To ensure continuity in programming, a well-known CAM system was tried. Although the machines performed successfully, the software proved to be problematic. “It was too expensive, much too difficult to use, and the support was terrible,” says Paul. “We muddled through it for two years, but our growing workload prohibited wasting time trying to get it to work. We needed to make parts!” Paul and son Kevin investigated and purchased GibbsCAM from Gibbs and Associates (Moorpark, CA). The GibbsCAM reseller provided training at the shop’s equipment supplier. With software and machines working, Paul Precision had a new goal. “We wanted to remove wasted labor and make parts in a singlemachine operation, instead of multiple operations on two or three machines,” explains Paul. “To achieve that, we used live tooling aggressively. GibbsCAM programming was used on all the Doosan turning centers, and we started generating income and paying off debt.” www.GibbsCAM.com CONTINUED ON PG. 7 | GO THERE g Customer Spotlight CONTINUED FROM PG. 6 The shop was still using multiple operations to make a series of 120-lb (54-kg) cylinder heads for its newer natural-gas compressor customer. The parts had angled flanges and hole patterns on each end. The narrower end also had a second hole pattern to accommodate valves. Machining required boring soft jaws for each end, and a special fixture for milling flanges. In lots of 15 or 20 pieces, it took 1.5 hr to make each smaller part, and 2.25 hr to make the larger. | PAGE 7} Programming the MX involves modeling stock material for the left spindle, setting the jaw depth in a GibbsCAM window, selecting tools, and turning the part on the first side. To use the same boring bars and turning tools on the other side, the tools are copied and pasted from the first side onto the other. GibbsCAM then displays how the piece looks in process. Hauth says he can program the difficult gas compressor parts in about an hour. The machining head rotates from +90 degrees Paul had seen a A natural gas cylinder head nears completion on the to -90 degrees, and the dual-spindle Puma subspindle of the Puma MX3000S programmed with second spindle can run in MX3000S, brought into GibbsCAM at Paul Precision Machine. reverse, so the same tool the country for an open setup can be used on house demonstration at both spindles. “On the front side, the chips fly toward the supplier, and thought the machine had potential. the window, and on the back side they fly toward the He asked if the supplier would use one of his cylinder back,” Hauth explains. “The head can spin at 10,000 heads to demonstrate the machine. The supplier rpm, so it can drill, tap, and mill, or lock down and turn agreed, and the successful demonstration led Paul to or bore. No change necessary.” purchase the second MX3000S sold in the U.S. The shop added the GibbsCAM MTM (multitask machining) module, and Kevin Paul, who has since left the shop, started making parts on the MX3000S. Greg Hauth, now the main lathe programmer, says Kevin Paul spent most of his last three weeks at the shop training him on the machine. The cylinder heads started as bar stock of 65-45-12 ductile cast iron, then were turned, bored, drilled, and tapped on the main spindle, and transferred to the subspindle, where the other side was turned and bored. Because the MX3000S can mill at angles, it milled the angled flats with a 3” (76-mm) face mill, and Chuck Paul (right) discusses a part with Danny the part came off the Burchfield (left) and Greg Hauth. machine complete. “My only formal training was a seven-hour session on the GibbsCAM Production Lathe module,” Hauth explains. “Kevin taught me the basics of programming the MX3000. I learned more along the way, and I asked the GibbsCAM reseller a lot of questions. He was very helpful, but GibbsCAM is really straightforward and easy to use. It all makes sense. I don’t know how we would program the MX without it.” Parts went from four operations performed on three machines to a singlemachine operation. Changeover from one size to another was 30 min, enough to change tools and load a new program. The cost was as much as it was with the previous method, but the shop’s income rose, because the production time was reduced by two-thirds. www.GibbsCAM.com CONTINUED ON PG. 8 | GO THERE g Customer Spotlight | PAGE CONTINUED FROM PG. 7 8} At peak production, the MX3000S was producing 3200 cylinder heads annually. Now, the customer is in the process of moving, and the shop gets no work from them during the transition. Regardless, Paul remains undeterred, and works hard to keep the CNC mills and lathes making parts. “For CNC turning, I program all seven lathes with GibbsCAM,” Hauth adds. “They all have a live-tooling C axis, but multitasking machining with the MX3000 does much more.” The productivity resulting from GibbsCAM, live tooling on all lathes, and the MX3000, has all combined to help pay down debt. As a result, Paul has been able to keep equipment current, with no CNC older than three years. He recently converted the shop to a server system, wirelessly networking everything. Six of the nine machinists use GibbsCAM on the network, which provides access to CNC programs and other files. Paul’s next goal is providing remote access, so machinists can implement ideas from home, as they think of them. GibbsCAM Cut Part Rendering is used for all toolpath verification. Cut Part Rendering shows that a part has been completed on the main (left) spindle, while another operation proceeds on the subspindle after the part is transferred. Reprinted in part by permission of Manufacturing Engineering, ©2009, Society of Manufacturing Engineering. A full version of this article can be found at www.GibbsCAM.com. GibbsCAM Online Update We’re excited about the changes taking place online regarding GibbsCAM! GibbsCAM.com has undergone a massive reconstruction that gives it a fresh look and a better platform for making future updates. This new look is just the beginning of things to come. We also encourage you to connect with us on Facebook, Twitter and LinkedIn. It’s the best way to stay in the loop on new product releases, events in your area, training dates and other GibbsCAM-related news. www.GibbsCAM.com Customer Showcase COMPANY: | PAGE 9} EMC Precision Machining Elyria, Ohio WEBSITE: www.emcprecision.com USER SINCE: April 2009 LOCATION: As a family-operated precision machining company since 1925, EMC honors the principles behind three generations of success pursued with a steady eye on the future. This fusion of stability and foresight means EMC is a small precision machining company with a huge capacity for turn-on-a dime response. And a healthy appetite for the next challenge. PART DESCRIPTION: Programmers at EMC Precision Machining needed only about 3.5 hours to program this part – a braking system component for the heavy duty off-road trucking industry – for its Citizen Swiss machines. Are you doing some really cool programming with GibbsCAM? Would you like to show off your stuff in front of other GibbsCAM customers? If your answer is “Yes!” then forward your VNC files to us, along with pictures and other interesting information about the job. A panel of qualified experts will select winners to be published in the next customer newsletter. Entries that get published will receive a free GibbsCAM baseball hat. But here’s the best part: all submissions will be reviewed for potential selection as a case study story that may be published in a national manufacturing trade publication. Interested? Then e-mail [email protected] or call us at (805) 523-0004. GibbsCAM Video Showcase Our GibbsCAM Video Library includes an assortment of videos from our customers and partners sharing their GibbsCAM successes. GibbsCAM/Autodesk Inventor 2011 This video showcases the ease of usability between GibbsCAM and Autodesk 2011 and the interoperability between the two programs. CLICK TO WATCH ONLINE g Do you have GibbsCAM video footage and/or plan to prepare video footage that you would like GibbsCAM to consider for the new video library? If your answer is “Yes!” then please contact us at [email protected]. www.GibbsCAM.com Tech Tip: Plunge Rough Process This Tech Tip provides an overview of the numerous productivity enhancements available in the new Plunge Rough process. The new process icon is located at the right side of the Machining Palette, shown in Fig. 1. A Plunge Rough process is created like any other process; dragging the process icon and a tool icon to the Process list will open the Plunge Rough process dialog. Plunge rough machining is a highly productive method used to remove large quantities of material from your parts. Using an insert drill, end-mill or face-mill, and the Z-axis of the machine (the strongest axis), a series of drill-type plunge moves rough the part to a semi-finished shape. As a result, less time is used before semi-finish and finish machining can begin. This will not only reduce programming and cycle times, but it will also reduce costs. Note: When using Plunge Rough tooling, the tool manufacturer’s recommendations should always be used. This includes tool type(s), axial and radial depths of cut, speeds and feeds, etc. The Plunge Rough process dialog, shown in Fig. 2, includes numerous settings permitting the user to define the desired strategy details. 2D, 2.5D and 3D solids can be programmed with the Plunge Rough process. In Fig. 2, the areas outlined in red will be described in this overview. Please refer to the Plunge Rough documentation, for a complete description of all settings. The Plunge Rough process dialog, shown in Fig. 2, includes numerous settings permitting the user to define the desired strategy details. 2D, 2.5D and 3D solids can be programmed with the Plunge Rough process. In Fig. 2, the areas outlined in red will be described in this overview. Please refer to the Plunge Rough documentation for a complete description of all settings. In addition to the standard settings, all settings permit the use of containment features, offering additional toolpath control, if desired. Containment features can include one or more geometry shapes; fixture bodies; stock body; including faces selected with the Constraint and Stock icons on the Machining Palette. www.GibbsCAM.com Toolpath Layout: This is the first setting the user will adjust, since it directly affects the resulting settings the user will be presented with. This | PAGE 10 } FIG. 1: NEW PLUNGE ROUGH PROCESS ICON FIG. 2: THE PLUNGE ROUGH PROCESS DIALOG FIG. 3: TOOLPATH LAYOUT FIG. 4: PART TYPE drop-down contains the main Plunge Rough process choices, which are Linear, Circular, Guide Curves and Contour, shown in Fig. 3. Part Type: This choice is only available if Linear Toolpath Layout is selected. Here, the user will select whether the part being machined is a Core (male) or a Cavity (female) shape, shown in Fig. 4. The toolpath results will differ depending upon the choice. CONTINUED ON PG. 11 | GO THERE g Tech Tip CONTINUED FROM PG. 10 | PAGE 11} Circular, the toolpath will follow the defined Start and End Radius values and increase or decrease the radius for each subsequent row. The spacing between each row of toolpath is controlled by the Side Step value. Contour makes a single row of toolpath, so Pattern does not affect it. Circular Layout: By setting the Start and End Radius values, the user defines the area to be machined and whether to machine outside-to-inside or inside-tooutside, shown in Fig. 6. A Cutting Direction Angle of 0 will machine in a counter-clockwise direction, and an angle of 180 will machine in a clockwise direction. FIG. 5: EXAMPLE OF LINEAR, ZIG-ZAG, AND CONSTRAINT FACE AVOIDANCE Guide Curves: Requires the selection of two starting points, one for each curve, and a selected solid or faces to machine. The direction of cut is set by the selected points, and will machine in a straight line from one point to the other. The subsequent rows will be parallel to the first, and will cut a Zig-Zag, One Way or Up Hill pattern, based upon the setting, shown in Fig. 7. Contour: To closely follow the walls along the edge of an area, a Contour process is used. An open-ended geometry contour is created or extracted along the wall(s). On the process dialog, the Contour Side is set to Left, Center or Right. If Center is set, the toolpath will be created on center-line of the geometry. If Left or Right is set, the Offset dialog box is active. An Offset value of 0 will position the edge of the tool tangent to the geometry, and a larger value will offset it away from the geometry. To create the toolpath, the floor under the Contour must be selected, and the geometry start-point on the Contour must be selected. In Fig. 8, the red arrow shows the selected start-point, and the green arrow shows the direction of cut for a Left side Contour. Cycle: Pull Off Wall: This option will create an additional move, at the bottom of each drill position, before the tool retracts. The move is specified by an angle and a length to prevent the tool from wearing by staying in contact with the material while retracting. FIG. 6: EXAMPLE OF CIRCULAR, ONE WAY, AND FIXTURE AVOIDANCE FIG. 7: EXAMPLE OF GUIDE CURVES AND UP HILL Skip PullOff on first plunge: This option prevents a collision that can occur if the tool were to pull-off inside the first hole when plunging inside a closed part shape, such as a cavity. Skip Collision Check: When this is not selected, all pull-off moves are checked for collisions. www.GibbsCAM.com Warning! Before using this option, please refer to its description in the Plunge Rough documentation. FIG. 15: “FULLY TRIM PASS” – “EXIT” MOVE FIG. 8: EXAMPLE OF A CONTOUR CUTTING ON THE LEFT SIDE GibbsCAM at IMTS 2010 | PAGE 12 If you’re planning to be at IMTS in Chicago this year, stop by and see us at Booth #E-3810! And don’t miss out on hearing Bill Gibbs speaking on “CAM Software and Your Profitability” on Thursday, September 16 at 11:00 A.M., in the West Building of McCormick Place. Bill’s presentation is developed to be highly interesting to shop managers and owners and will highlight production costs that can be eliminated through effective use of a good CAM system. Full details g Also, visit the online GibbsCAM IMTS Showroom to include us on your show agenda. Upcoming Events Event titles in green link to their respective websites A Pramet Cutting Days 2010: Aug 30-Sep 3, 2010 • Pramet Tools Sumperk • Sumperk, Czech Republic A IMTS 2010: Sep 13-18, 2010 • McCormick Place • Chicago, IL • Booth: E-3810 A MSV 2010 Brno: Sep 13-17, 2010 • BVV Brno • Basel, Brno, Czech Republic • 150, Hall P A Alihankinta 2010 Sep 21-22, 2010 • Tampere Exhibition and Sports Center • Tampere, Finland • Booth: D220 A Industridagene 2010 Sep 27-30, 2010 • Norway Trade Fairs • Oslo, Norway • Booth: D04:18 A Tekniska Mässan 2010 Oct 19-22, 2010 • Stockholm International Fairs • Stockholm, Sweden • Booth: A22:18 A PRODEX: Nov 16-20, 2010 • Basel Exhibition Center • Basel, Switzerland A Euromold 2010: Dec 1-4, 2010 • Messe Frankfurt Exhibition Center • Frankfurt, Germany • Booth: F70 - Hall 8 A SolidWorks World 2011: Jul 23-26, 2011 • Henry B. Gonzalez Convention Center • San Antonio, TX • Booth: 621 GibbsNews is published quarterly by Gibbs and Associates, a Cimatron Company, based in Moorpark, CA, and is distributed free of charge to GibbsCAM customers and others interested in GibbsCAM. www.GibbsCAM.com ©2010 Gibbs and Associates, a Cimatron Company. All rights reserved. The Gibbs and GibbsCAM FIG.logos, 15: GibbsCAM, Virtual Gibbs, SolidSurfacer and “Powerfully Simple. Simply Powerful.” are either trademark(s) or registered trademark(s) of Gibbs and Associates in the United States and/or other countries. All other brand or product names are trademarks or registered trademarks of their respective owners. This document is for informational purposes only and is subject to change.
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