Metal Detector Verification 101

Metal detectors used in food processing are essential to keeping hazardous metal particles from mixing into our food. Ensuring a metal detector is operating properly and is properly verified will keep your metal detector operating properly for its lifespan. This article will go over the process of verifying an industrial metal detector. 

Calibration vs Verification

When it comes to verifying a metal detector, it is essential to understand the difference between calibration and verification. Metal detector calibration is a different process compared to calibrating a scale. When it comes to ensuring that the metal detector is able to perform its task, then it goes through a verifictaion process. Verification is the act or process of proving that the metal detector meets its sensitivity requirements. This is accomplished by challenging the detector in a repeatable manner with a certified metal sphere at a pre-described time. Most often, this procedure is executed at the same time on a daily basis. Unfortunately there is no standard to which a metal detector can be set. Granted we use metal detectors to find a specified size of metal during processing.  Setting the metal detector to pick up a specific size of metal will help locate a range surrounding a specific size. A good example of this is to change the settings to s epcific size and the magnet should be able to detect 1.5mm ferrous.  Even though a metal detector can’t be calibrated, it detector can be verified and validated. The metal detector can be tested to ensure it qualifies as meeting the standards set forth in a HACCP or other plan.

One would think that verifying a metal detector would be similar to calibrating a scale, this is not the case. With a scale, you take a standard weight, lets say 10lbs and adjust the scale so that it reads 10lbs.  You might send out a scale to a 3rd party vendor who would ensure that the device is calibrated, usually to an specifically accepted standard, and measured appropriately and consistently.

Metal Detection Standards

Unlike an industrial scale, a metal detector does not have an international standard to follow to be considered calibrated (industrial scales have NSIT). There are a lof factors that can affect detectors capabilities. This section will go over the factors that affect metal detectors.

• Orientation effect – Happens when the diameter of a wire contaminant is less than the spherical sensitivity in the test piece.  Sensitivity is measured by the ball size because some contaminants, which are often wire, are more difficult to detect based on the direction of travel through the aperture.

• Aperture size and position – A contaminant close to the wall of the metal detector is easier to detect. The larger the aperture, the less sensitivity. For a consistent reading, products should pass directly through the center of the aperture.

• Packaging material – The material used to pack a product also affects sensitivity. Any metal in the packaging will affect the metal detector, reducing sensitivity and possibly creating a false metal signal.

• Environmental conditions – Vibrations and temperature fluctuations can affect the metal detector’s sensitivity.

• Product characteristics – Some products have certain characteristics that behave in the same way as metal when passing through the detector. For example, products with high moisture or salt content, such as meat and poultry, can often create a ‘false’ signal, making it difficult to distinguish the difference between metal and product.

• Process speed – This is not necessarily a limiting factor for conveyorized metal detectors where product passes through at a consistent speed, but performance is hindered when inspecting product passing through vertical metal detection systems pipelines because of the variations in the speed and flow of the product.

• Detector frequency – Metal detectors operate at different electromagnetic frequencies depending on the type of product being inspected.

understanding Verification

While all these are important considerations, these are only some of the factors involved in veritying and validating a metal detector. All things being considered, the term calibration applies, ultimately, to the relationship between the metal detector and the product. Once the proper size aperture is available and each of these factors have been settled, a metal detector is “calibrated” with clean/non-contaminated product such that the product does not cause any effect on the metal detector. In simple terms, run a clean product through your detector and it shouldn’t reject the product.  The “Product Effect” is being eliminated from the testing process.

Product effect is the magnetic and conductive properties of a product. As the product passes through the aperture, it will affect the coils used in the detection process.  Metal detectors must factor this and eliminate it or ignore it. During setup, the detector needs to “learn” what is the product effect.  The detector will discover this (along with the other factors above) and can then be set to a baseline.  This is a setting in which the product (a clean product) and it’s container (paper, cardboard or other non-magnetic housing) move through the detector without setting off a detection alarm and the associated reject device.

When it comes to an audit, many people will ask an auditor to come in and “calibrate” their detectors. An auditor can assist with that, as explained, but that’s not what’s done during an audit.  The auditors job is to verify that the metal detector can achieve the specifications (usually of a HACCP plan) that the quality control department needs it to achieve.  An auditor should be able to discuss calibration and verification.

Testing Workflow

The metal detector test follows a specific flow, which helps ensure that there aren’t any skips in procedure. Below is a list of what to expect when getting your metal detector audited.

1. The auditor will confirm that the test samples are clearly marked with size, composition, and certificate number or provide. Whenever possible, Detector Audits will supply certified test samples for testing.

2. Unit will be monitored/observed with a product to watch for signal changes and potential interference sources.

3. Settings will be recorded as found at time of arrival, prior to making any changes to the unit.

4. Test samples should travel through the approximate centerline of the aperture as this is the least sensitive area of the aperture.

   • Samples should be placed within the product when possible.

   • Testing of conveyor units should be tested on the product, preferably in the lead/center/trail position.

   • Gravity units should be tested from point of product freefall.

   • Testing of pipeline units should be tested through the center of the pipe.

5. Test samples must activate the reject device to ensure the reject device is properly removing contaminated products from production. Verifying the reject device may include:

   • Testing with contaminant at leading and trailing edge

   • Running successive packs

   • Attempting alternate packs

6. Testing will be performed 3 times per test sample. A successful test consists of 3 (per test sample) consecutive detects.

7. Changes to unit settings will be made, as necessary, to achieve successful testing. All changes will be recorded. These alterations should be made by plant personnel whenever possible.

Conclusion

So if the company (customer) has already established that they need to achieve 1.5mm Ferrous, 2.0mm Non-Ferrous and 3.0mm Stainless Steel, then the auditor, using a procedure outlined above, will verify that standard.  If the product changes, the standards achievable could change, so the verification only applies to the products tested on that metal detection system. A change in the product will require that the detector be re-calibrated for that product and then the auditor can verify it meets the standards intended.  Understanding the terminology means clarifying what you do on your production line and how it’s done. And in the end analysis, that makes for a safer product in the marketplace, so know the difference between calibration and verification.

At American Scale we strive to bring you informed and useful content on all things scale systems related, including products from the top scale manufacturers. Be sure to check out our truck scale articles about truck scale foundation or how much do truck scales cost. We even have a guide to warranties. To learn more about bench scales, it would be good to check out our other articles such as “Bench Scale Basics'' and “How Much Does A Bench Scale Cost?”. These articles will help with the basics of bench scale ownership. Also, take a look at our“Common Problems With Bench Scales'', to help prolong the lifespan on your scale.