Recent Postings

Wire consumption is one of the most critical components to impact the profitability of a wire EDM. It’s my belief that every WEDM owner should know the cost of their machine’s wire consumption, so I developed a wire consumption calculator that determines their spending for them (www.makino.com/wirecalc). Try out the calculator for yourself here - simply select your specific wire diameter in use, followed by your wire speeds, machining times, and the price you’re paying for a pound of wire. If this is your first time looking into wire consumption costs I think you’ll be surprised by the results. Makino has addressed wire consumption in the design of their new DUO series WEDMs, significantly reducing the wire unspooling rates without any loss in speed or accuracy. Our DUO customers have been reporting consumption savings as high as 60 percent! If you have any questions about the significance of wire consumption and what it means to your overall business, feel free to e-mail me at jeff.kiszonas@makino.com.

Since small hole drilling is becoming more popular for production applications in aerospace, medical, electronics, and other sectors that require very small, extremely accurate holes with good surface finish, Makino is seeing a growing demand for machines that can produce these holes consistently and repeatably. Here are some test results that were produced by the Makino EDM Applications Department in Auburn Hills, MI. 

The Applications Department performed this test to prove the repeatable accuracy of the EDGE2 Fine Hole machine. A series of 15 holes, 0.010" (0.254mm) diameter, was made on the machine using 0.008" (0.203mm) diameter copper pipe to predrill each hole, then a solid copper rod was used for finishing. The holes were measured for entrance and exit size, and also shape accuracy on an OGP Quest Vision System. 

There are several factors that determine the accuracy and speed at which the 0.010" (0.254mm) diameter holes can be produced. When the 0.008" (0.203mm) diameter copper tube is at full length, the machining time is longer and a greater taper is produced from entrance to exit for the solid finishing rod to remove. This is indicated by the values shown for holes 1 through 9. As the roughing pipe electrode becomes shorter, the machining speed and break-through at the bottom of the holes are much faster. The roughing process produced a slight taper of 2 ~ 4 tenths (5-11 micron) which was removed during the finishing process. It was critical to perform these tests in a climate controlled room, and to use only the highest quality copper tubes available to reach these results and times. To maintain the better results shown in holes 10 through 15, the electrodes should be purchased in a maximum of 6.0” lengths. All 15 holes where roughed and finished in approximately 60 minutes for an average of 4 minutes to include dressing between holes.

       Hole #       Entrance        Exit               Difference
        1               0.010032”       0.010432”       0.000400”
        2               0.010090”       0.010242”       0.000152”
        3               0.009993”       0.010127”       0.000134”
        4               0.010033”       0.010131”       0.000098”
        5               0.010048”       0.010145”       0.000097”
        6               0.010040”       0.010320”       0.000280”
        7               0.010065”       0.010569”       0.000504”
        8               0.010025”       0.010348”       0.000323”
        9               0.009994”       0.010336”       0.000342”
        10              0.009962”       0.010039”       0.000077”
        11              0.009966”       0.009984”       0.000018”
        12              0.009956”       0.010038”       0.000082”
        13              0.010052”       0.010064”       0.000012”
        14              0.010056”       0.010066”       0.000010”
        15              0.009996”       0.010004”       0.000008”

Cpk Results of Entrances
Based on specific pre-defined requirements for these holes, Cpk is 1.82. 
This Cpk is considered exceptional based on the following scale:
        0 to less than 1.0 is unacceptable - sometimes called "not capable"
        Greater than 1 to 1.33 is fair
        Greater than 1.33 to 1.66 is acceptable
        Greater than 1.66 is exceptional
These Cpk values and ratings are per QualityAdvisor.com

Hole Shape and Location

The holes shown above were photographed at 166x magnification on the OGP Quest Vision System.  Pitch between center of holes was programmed at 0.0250” (0.635mm)

The two photos shown above were taken at 403 magnification.  Back light shown at left, surface and back light shown at right.

For more information on these test results or the Makino Edge2 Fine Hole EDM machine, send an email to either jeff.kiszonas@makino.com or bill.paul@makino.com.

I recently had a local Michigan customer ask me how to go about securing business in areas other than Tool & Die and Molds.  His shop has traditionally been a mold building shop catering to the automotive industry.  No surprise there, since he is very close to Detroit.  Because of the weakened economy, and especially because of all the problems with GM and Chrysler, many shops that had historically supplied tooling of all sorts to the automotive industry in and around Michigan are looking elsewhere for work.  For many shops, this diversification of their business operation has meant the difference between remaining competitive, and going out of business.

Many of the skill sets that are learned and used in Die-Mold work can be translated to parts manufacturing for different sectors.  Like anything else, changing from Die-Mold or Tool & Die making to parts manufacturing will have a learning curve.  Keep in mind also that when you get into some of this work, like aerospace, medical, or Department of Defense (military), there is a whole new set of rules, specifications, restrictions, and so on.  Once these are learned and you accept them, you will find that there is work to be had and money to be made in these sectors.

Some of the industries I would recommend looking to are medical/dental, aerospace, military, clean and renewable energy, and power generation (turbines). Most of what I see in the demand for EDM from these sectors is more in the way of parts than for tooling, except for medical. More and more shops I go into that used to make strictly tooling are diversifying into parts manufacturing. For example, almost every T&D shop I have visited in California in the last 8 years now does less than 5% of their business in T&D.  Those same shops are now producing parts for aforementioned sectors.  Certain areas of the country also have specific industry needs for EDM.  In Texas, Oklahoma, and Louisiana there is a need for knowledge and experience in using EDM for manufacturing parts for the oil field industry.  The arid Southwest; California, Arizona, and Nevada; has a need for agricultural irrigation system parts. 

As for making contacts, that depends on the specific sector. For military work, the government publicly solicits quotes for many of the projects they need work done for . You can probably find info on this and the other sectors by googling them. These links will get you into the U.S. government's site that deals with doing business with the government and the military.  http://www.business.gov/expand/government-contracting/    http://www.acq.osd.mil/osbp/doing_business/index.htm    I know that Aviation Week Magazine has a very comprehensive publication that lists all major aerospace "Primes", and many of their subcontractors. https://a1.ecom01.com/aw_marketdatacenter?s_id=11  SAE is heavily involved in aerospace manufacturing and would probably be a good source for info or contacts. I always see info from them advertising seminars on how to do business with the aerospace industry. Check out this link - http://saeglobalsuppliermarketplace.com/   I would also recommend looking into the Michigan Aerospace Manufacturers Association, based in Grand Rapids, MI, and other more local business development organizations. http://www.michman.org/

For Medical, the MD&M (Medical Device & Manufacturing) shows are an excellent place to network for this sector. The shows not only have medical supply companies exhibiting, but is a prime showcase for shops that cater to them. The next one is in NYC in June, http://www.devicelink.com/expo/east09/  then Minnesota in October http://www.devicelink.com/expo/minn08/. 

Another area with a lot of growth potential is Micro- and Nano-manufacturing.  This is one of the fastest growing disciplines, as the demand for smaller, lighter, and more capable devices continues to escalate.  This area may be at the opposite end of the spectrum for many of you, who are very familiar with making larger parts and tooling components.  Again, parts manufactured on this scale have a completely different set of challenges than what many of you are familiar with.  There are several Micro Manufacturing conferences each year throughout the country, and the magazine MicroManufacturing can also be a good source of contact information.

I am not sure where to find contact info for the energy sectors, other than to research websites related to these. One place to start would be the Department of Energy websites for U.S. and individual states.

I hope this information is helpful to anyone out there who's shop is struggling to survive in these hard economic times.  Its not always the technology you employ that makes you successful.  Who you do work for can also have a big impact on the future of your company.