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Nickel plating gives these magnets good corrosion resistance.
Cover these unfinished magnets with your choice of coating to prevent corrosion.
Even at temperatures up to 300° F, these magnets have strong holding power.
Many small poles give these magnets shallower, more concentrated magnetic fields that hold especially well on thin material. They resist temperatures up to 180° F.
Ceramic magnets resist demagnetization better than other magnets and are an economical choice. They resist temperatures up to 400° F.
Strong and compact, these rare earth magnets resist temperatures up to 570° F.
Made of neodymium, these rare earth magnets are the strongest for their size. Slide onto a rod or use a bolt or screw to install.
Many small poles give these magnets shallower, more concentrated magnetic fields that hold especially well on thin material.
Press these magnets into place, or use them like a tongue and groove to align components. The stepped profile allows you to install them without adhesives or screws.
Ceramic magnets resist demagnetization better than other magnets and are an economical choice. They resist temperatures up to 480° F.
A rubber cover protects the mounting surface as well as the magnet.
A smooth metal cover gives these magnets a finished appearance.
A case protects the magnetic material.
A plastic case protects the mounting surface as well as the magnet.
A rubber cover protects the magnet and mounting surface.
Stretch these magnetic strips over corners and irregular surfaces.
These magnets are made of corrosion-resistant ceramic and bonded with rubber for flexibility.
Unlike other flexible magnets, these resist demagnetizing at temps up to 250° F.
These magnets are bonded with epoxy resin, so they can be machined with carbide tooling.
Parallel poles create a better magnetic hold on thinly painted, plated, or coated flat metal surfaces than other magnets.
Position the face of these magnets in direct contact with a flat metal surface and turn on the power to create a magnetic hold.
Plug in these electromagnets to create a magnetic hold. A transformer in the plug converts power from AC to DC, so no additional wiring or power source is needed.
Turn the handle to switch these magnets on and off.
Use mounting holes to install these magnets where they are needed; switch them on and off with the handle.
These filters are designed without guide rods to prevent wet and sticky material from blocking flow.
Replace individual rods in an existing filter or create a custom filter.
The guide rods direct flow to the magnetic rods. They’re helpful in removing dry particles from fine powder and low-flow applications.
Easy to keep clean thanks to their design, these filters pull metal and magnetic particles out of food and sanitary material as it passes through gravity hoppers, chutes, and other parts of your process line.
Pull the rods from their sleeve to release particles stuck to the filter.
Keep coolant systems free of small particles, such as chip filings and metal dust.
These holders keep steel tools and knives in place magentically.
Coated with PTFE, these stirring bars are corrosion and chemical resistant.
Easily grab iron and steel fasteners, small sheets, and other parts from work areas, bins, and hard-to-reach places.
Slide steel plates and blocks off a stack.
These magnets hold a load until you pull the handle and pry the magnet off.
Pull the on/off handle to engage and release the magnet.
Prevent metal objects from entering your upright vacuum cleaner and causing damage.