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How To Prevent Unwinding Roll Static

The master roll arrived at your receiving dock right on time. Now, you have the material to complete the job for that important customer. Along with the incoming material, you also may have received plenty of static charge wound into the roll. You can avoid many static problems by doing two things. First, do a quick “static check” on the roll to see if it is “hot.” Next, monitor the static on the unwinding film to verify that your incoming material meets your specifications. If you don't yet have them, your measurements will help you set reasonable specifications. If the roll runs well, you'll know what static level is acceptable. If you have static problems, or if you receive complaints from your customer, you'll know what level causes problems.

A quick static check will help you find hot rolls before you load them onto your unwinder. To do a static check, use an electric fieldmeter to measure the field on the roll as you unwind about a quarter of the outer lap of film as shown in Figure 1.

Here's how the static check works. In Figure 1(a), the master roll as delivered was wound with high static charge indicated by the eight “-” signs within the roll. However, during storage and transport, naturally occurring ions in the air along with some dust particles are attracted to the roll and build up on the outer lap, shown by the eight “+” signs. The charge on the outside of the roll just balances the static wound inside the roll. So, as delivered, this hot roll has a very low electric field on the outside. For the quick static check, we must remove the charge on the outside of the roll by unwinding about quarter of the outer lap. Measure the electric field between the unwound film and the roll as shown. If you measure a high electric field, or if you hear static crackling when you peel the film, you'll know that you have a hot roll.

The static check is a good qualitative measurement to see if a roll is hot. Now, let's get more quantitative and put some numbers on static so we can track performance with a control chart, set specifications, and verify that incoming material meets your needs. Monitor static on the film near the unwinder using an electric fieldmeter and an electrostatic voltmeter as shown in Figure 2. The fieldmeter measures EUNWIND on a film span as close to the unwinding roll as is reasonably possible. This measurement indicates the average static charge on both sides of the film. In Figure 2, EUNWIND will be low because the film has positive charge on one surface and negative charge on the other surface.

The voltmeter measures VUNWIND where the film is wrapped around an idler roller as close to the unwinding stockroll as is reasonably possible. VUNWIND indicates the static only on the exposed surface of the film. In Figure 2, VUNWIND will be highly positive because there is positive charge on the exposed surface of the film. lovehub

Electrostatic voltmeters and fieldmeters are complementary measurements. Used together, these two measurements provide you with complete information on the static present on the unwinding film. For example, write down the values for EUNWIND and VUNWIND at 25%, 50%, and 75% through the stockroll. Track the average (x-bar) and range (R) of the three values of EUNWIND on an x-bar/R control chart. Similarly, track the x-bar and R of VUNWIND on a second control chart. These charts will give you a visual picture of the “normal” performance for your incoming material, and you'll see spikes when you unwind a hot roll.

Prevent static problems in your operation caused by static on incoming material by doing a quick static check to find hot rolls. Monitor the static on the unwinding film using a fieldmeter and an electrostatic voltmeter. Using control charts of these measurements, you'll see the normal performance of your process and see spikes of high static from hot rolls. And, you'll know just where to set specifications on incoming materials to prevent static problems.

Static control expert Dr. Kelly Robinson, president of Electrostatic Answers, has 27+ years of experience in problem-solving and consulting. Contact him at 585-425-8158; This email address is being protected from spambots. You need JavaScript enabled to view it.; www.electrostaticanswers.com.

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