Industrial metal detectors for the food industry

Metal Detectors for the Food Industry

Industrial metal detection for food industry regulations and compliance

A metal detector for food is a specialized device used in the food industry to detect metal contaminants in food products. Metal fragments can unintentionally find their way into food during the manufacturing process from broken machinery or the accidental introduction of foreign objects. Our line of industrial metal detectors for food processing settings can help prevent this serious food safety issue.

Call for Quote
View Results ()
Filter ()

Add 1 or 2 more products to compare
Toll Free 1800 22 8884
Call Service

Uptime
Support & Repair
Performance
Maintenance & Optimization
Compliance
Calibration & Quality
Expertise
Training & Consulting

FAQs

Why is metal detection important in the food industry?

Metal detection is an essential part of the food industry's quality control process. It provides confidence to manufacturers that their food products are safe, compliant, and of high quality. Metal detectors are used at Critical Control Points (CCP) at various stages of food production – at the beginning to inspect raw material before further value is added to the product and to protect expensive equipment from damage, at midway points when metal fragments are more likely to enter the product via fragile equipment breakages or other accidental foreign object contamination, and at the end of the line prior to shipping to prevent metal contaminated products from reaching consumers and posing a serious health risk. Using metal detectors for food processing helps manufacturers comply with regulatory requirements, maintain consumer trust, and avoid brand-damaging and expensive product recalls.

Related Content:

Can metal detectors be used on all types of food products?

Metal detectors can be used on a variety of food products, including dry and wet products, packaged and unpackaged products, and products with different textures and densities. Certain factors, such as high moisture or salt content, can affect the sensitivity of the metal detector leading to what is known as "product effect". Our Profile Advantage metal detector is an excellent solution to battling this costly interference and potential false rejects.

Related Content:

What types of metal can be detected by metal detectors in the food industry?

The most common types of metallic contamination include:

  • Ferrous (iron)
  • Non-ferrous (brass, copper, aluminum, lead)
  • Various types of stainless steel (magnetic and non-magnetic)


Of the three types listed above, ferrous metal is generally the easiest to detect, while stainless steel alloys (extensively used in the food industry), are often the most difficult to detect, especially common non-magnetic grades such as 216 and 304.

Non-ferrous metals, such as brass, copper, aluminum and lead, usually fall between these two extremes, although in larger metal detectors operated at higher frequencies, nonferrous metal can be harder to find than non-magnetic stainless steel.

When the right metal detector is used for the likely metal contaminant type, you will be more successful in detecting metal contaminants in food.

Related Content:

How do metal detectors work in the food industry?

Metal detecting in the food industry works by passing food products through the metal detector aperture, which uses an electromagnetic field to detect for the presence of metallic objects. When the electromagnetic field encounters a metal fragment, it creates a disturbance that is detected by the metal detector, which then signals the presence of a potential contaminant.

Related Content:

What are some best practices for implementing metal detection in the food industry?

Some best practices for implementing metal detection in the food industry include regular testing and calibration of metal detection equipment, proper training for employees who will be operating the equipment, and adherence to strict hygiene and sanitation cleaning protocols to prevent bacterial contamination. Additionally, it's important to have a robust metal detection program that includes regular due-diligence checks, performance verification, monitoring, and reporting to ensure the continued effectiveness of the equipment.

Related Content:

What part of food processing and handling involves using a metal detection system?

The use of metal detectors for food processing is a critical part of food production and involves installing equipment with a metal detector head and conveyor system at specific points in the production process, such as at the point of incoming raw materials, at various stages on processing lines, and at the end of the line before final packaging. You can also use metal detection in food packaging lines to check products after packaging and before they are loaded onto trucks. Food products are passed through this equipment to check for metal contaminants, and if a contaminant is detected, the affected product is removed from the production line.

What types of metal detectors are used in the food industry?

There are many types of metal detection systems used in food processing, including industrial metal detectors for conveyor belts, pipeline metal detectors, and gravity-fall metal detectors. Conveyor and tunnel-based metal detectors are the most commonly used type and are installed on conveyor systems to detect for metal contaminants in products inline as they pass through the detector. Pipeline metal detectors are used for liquid and semi-liquid food products (such as pastes or slurries), while gravity-fed metal detectors are used for free-flowing products (e.g., nuts).

Which metal detector is right for my industrial food facility?

There are many types of metal detectors in food processing, and each type of system has its own advantages and disadvantages. Choosing the best metal detection solution for a particular application will depend on several factors, including product type, throughput, and sensitivity requirements. Regardless, METTLER TOLEDO metal detectors are sensitive enough to detect a variety of ferrous and non-ferrous metals, including the difficult-to-detect non-magnetic stainless steel. They can detect metal contaminants even in challenging applications, such as products more susceptible to false positives due to their high water and/or salt content - i.e. products prone to "product effect".

Related Content: