|
As global competition has caused
manufacturers to raise the bar
for machine performance and productivity, many have realized the importance of proper maintenance when it comes to maximizing a machine’s effectiveness. Far fewer have recognized the potential impact of wear parts and consumables on overall production.
With current technology, consumable parts can play a critical role in the overall success of a machine investment. Similar to the way inexpensive tires can eliminate the benefits of a high-performance automobile, low quality consumables can result in subpar machine performance. This holds especially true when talking about wire EDM.
To demonstrate the effects of maintenance and using the correct consumables and wear parts, a test piece was cut on 40 wire EDMs across the country. With a median age of eight years, all of the machines underwent a preventative maintenance program using original parts. After cutting with a .010” wire for one rough and two skim cuts, measurement of the finished test parts revealed the median deviation was a mere .00015”. Regardless of age, the cutting time for all machines was exactly the same as it had been when they were new from the factory, demonstrating the potential power of maintenance and using manufacturers’ recommended consumables and wear parts.
Wires
Perhaps the most obvious consumable to affect wire EDM performance is the wire itself. A great deal of EDM users have switched to inexpensive wires in an effort to save money. While these options might meet an operation’s minimum standards, they often leave much to be desired. To truly maximize cutting performance without wire breakage or sacrifices in accuracy or surface finish, users should select wire based on the manufacturer’s recommendations.
An imperfect flow of water caused by improperly designed flushing nozzles can severely affect performance of a wire EDM. Figure courtesy of Charmilles Mikron U.S.
In most cases, machine builders work together with wire manufacturers to develop new wires and cutting technologies that maximize the performance of each machine’s specific spark generator. Additionally, different wire materials perform at varying levels in different situations. Coated wires typically excel when fast cutting and high accuracy are required. For applications with tapers over 15 degrees, the best choice will most likely be a soft brass wire or coated wire with high elongation. These types of suggestions can often be obtained through a machine’s CNC or Expert system. A manufacturer’s application department also should be able to provide advice on which wire to use for a specific job.
For those looking to maximize cost savings on EDM wire, twin wire technology provides the ability to rough cut with a coated wire for maximum cutting speed and then switch to a less expensive brass wire for finishing. Tests have demonstrated that twin wire EDMs can increase production by 15 percent without increasing wire costs.
Wire Guides
An EDM’s wire guides are usually the most important components for cutting highly accurate parts. With closed wire guides, the clearance between the wire and the opening in the guide will greatly influence the machine’s ability to cut accurately, especially where tapers are concerned. The exterior of a wire guide is composed of either stainless steel or ceramics, with a PCD (polycrystalline diamond) interior, as this material is extremely hard and wears very slowly. If a cross section of a high quality wire guide were to be examined, one would observe a radius on its inside. A high quality radius results in less friction on the wire and also provides higher surface finish and accuracy when cutting large tapers between 30 and 40 degrees.
Power Contacts
Once the correct wire and guides have been selected, it is important to choose the correct power contacts for a wire EDM. These components ensure the proper transfer of energy from the spark generator to the wire. The geometry of these parts determines whether they achieve the correct amount of surface contact with the wire. This, in turn, affects both the wear rate of the contact and cutting speed of the machine. The wrong power contacts can have a very negative effect on overall cutting speed. Between this loss in productivity, sacrifices in accuracy and surface finish, and the shortened life associated with cheaper versions of the power contacts, the option that is least expensive upfront often proves to cost more in the long term.
On a similar note, the power cable connected to the work table also influences machine performance. These cables need to have the right diameter and length, and must be manufactured from the proper copper alloy to guarantee optimal cutting performance.
The Value of Used EDMs
OEMs that stand behind their fully refurbished EDMs typically offer customers a full warranty, including parts and labor. Photo courtesy of Charmilles Mikron U.S.
For most, finding a good deal has become akin to winning the lottery, causing many of today’s consumers to become avid bargain hunters. However, it’s not always about obtaining an item at the lowest possible price, but rather considering your options to achieve the highest level of value.
In today’s marketplace, it is quite common for shoppers to purchase used automobiles, furniture and textbooks to save money. In the same vein, individuals in the manufacturing industry that work with EDMs may purchase used or refurbished EDMs for the very same reason—to lower overhead costs.
Generally speaking, businesses that elect to purchase a used or refurbished EDM do so because it requires less of an investment. When acquired from a reputable source, a used EDM can provide an excellent level of value. As an added bonus, used EDMs often come with shorter delivery times when compared with brand new machines. As a result, manufacturers are able to increase their capacity almost instantaneously, which sometimes can be a pressing issue.
Additionally, used EDMs potentially require less training, which, in turn, saves money and increases the overall value of the machine. Take, for example, a business looking to increase capacity. For the sake of saving money, this particular business is in the market for a used EDM. By selecting a make and model of a machine identical to one already owned by the shop, users forego the time-consuming training that a new machine might require.
When compared to a newer model, an older machine with fewer capabilities can appear to be dated, but it’s important to note that ‘older’ is certainly not synonymous with poor quality. Especially when OEMs are dedicated to providing customers with high quality used or refurbished machines containing original parts, customers can reap a great deal of value.
OEMs possess unmatched knowledge and skill when it comes to restoring or repairing an EDM of their own manufacture. Because company trained experts understand what it takes to reach optimum performance, OEMs revitalize their machines with new replacement parts directly from the company’s inventory. This increases the safety of the investment by significantly decreasing the possibility for malfunction or breakdown.
A quality OEM will perform detailed inspections and complete installations on every used EDM sold.
Machines should not only be refurbished to perfection,
but also reconfigured and customized to meet an indivi-dual customer’s needs. For example, adding a larger generator module with additional amperage to a diesinking EDM increases the material removal rate. Polishing modules also can be added to the generator, including corresponding technology for applications requiring fine finishes. A C-axis or tool changer may be added as well. For the end user, this level of service can prove invaluable.
OEMs that stand behind their refurbished EDMs usually offer customers a full warranty—including parts and labor—as well as full company support via telephone for service and applications. Every used machine purchased through an OEM should be installed by a factory-trained service engineer, and some OEMs will even offer optional on-site training by an applications specialist.
In today’s global marketplace, many U.S. manufacturers face the difficult position of needing to increase capacity while keeping costs to a minimum. By purchasing a refurbished or used EDM through an OEM, many manufacturers have found the solution to this apparent dilemma. |
Flushing Nozzles
Flushing nozzles also provide a clear example of how wear items can influence the cutting speed of a machine. To the naked eye, the external view of aftermarket flushing nozzles may appear nearly identical to a manufacturer’s original parts. However, the unseen interior design greatly influences the flow of water (Figure 1, page 19). A proper flow is vital to delivering water to the cutting zone without creating air bubbles or other turbulences that cause wire breakage and decreased cutting speeds. With non-submerged machines, the flushing nozzle is even more critical. During the skim cut, an interruption to the water surrounding the wire can cause red sparks that create lines on the part. A smooth and consistent column of water around the wire eliminates this risk.
Water Filters
Water filters also play an important role in getting the most out of a wire EDM. Filters need to be the correct size to achieve adequate flushing pressure, and also must be properly designed to keep EDM particles from being brought back into the cutting zone. In most cases, this means using an 8 to 10 micron filter for general flushing and a 5 micron filter for threading jet filtration. Some original manufacturers’ filters have additional surface inside the filter that increases performance and life by up to 2.5 times in some cases. This can make a significant difference in the amount of time spent on filter changes, along with reducing costs beyond what would be achievable with a cheaper filter.
Automatic Wire Threading
System and Knives
For those wishing to run their wire EDM unattended, an automatic wire threading system is a necessity. One such system—a high-speed and maintenance-free wire threading system that stretches the wire and cuts it under the effect of heat, regardless of wire diameter and material—accomplishes this without moving parts and only one consumable component, the diffuser guiding the water jet. An additional no-threading-hole detection feature prevents the machine from shutting down, which is especially critical during unattended machining.
In older machines, though, knives in the upper head constitute another consumable to be considered. These parts are critical to obtaining a precise cut of the wire without creating a burr, which could prevent the wire from threading correctly. The knives used in automatic wire threading systems are typically found as carbide or ceramic parts. Of these two options, ceramic parts last longer, which can justify their slightly higher cost to those who wish to run lights out through extended periods of time.
Getting the Most Out of Your EDM
As with any large investment, companies often pay great attention to the quality of a machine they are about to purchase. Too often though, little attention is paid to the consumable parts that will be used in the machine’s day-to-day operations. Those mold manufacturers who focus on using the best-suited consumables will find themselves getting far more out of their machines than would otherwise be possible. It is these types of advantages that help U.S. manufacturers compete in today’s global marketplace.
|
EDM
