Is tungsten carbide a cermet

Electrical components are one obvious application. Because they can get extremely hot, they need to behave like ceramics but, since they also need to conduct electricity, it helps if they work like metals. Cermets offer a perfect solution in components such as resistors and vacuum tubes (valves). Crudely, we can think of cermet resistors as a mixture of an insulator (the ceramic matrix) and a conductor (the metal particles), with the type and relative proportions of the two “ingredients” (ceramic and metal) determining the ultimate resistance.

The interesting surface properties of cermets also make them useful for reducing friction in machine parts. Some companies sell “ceramic metal conditioners” for engines that simultaneously make metal surfaces both smoother and tougher, reducing friction and wear at the same time, giving the dual benefits of greater fuel economy and longer engine life. Products such as this provide similar benefits to lubricants but work in an entirely different way by effectively modifying the surface structure of metal machine parts to make them behave more like ceramics. Since the particles involved are atoms and molecules, what we have here is a perfect example of nanotechnology in action.

Cermet composition

Like other composites, cermets “work” by producing a material with a microstructure that has certain things in common with each of its different constituents. For example, the metal ingredient effectively allows electrons to flow through the material, enabling what would otherwise be a ceramic insulator to conduct electricity. That suggests cermets are relatively stable structures in which the metal and the ceramic are fixed in place—but that’s not always the case. Under some conditions, cermets behave as though they have a dynamic surface layer, with metal particles constantly detaching and reattaching themselves. This effectively forms a smoother, harder, and more wear-resistant upper layer that makes a metal behave more like a ceramic.

Ceramic plus metal = cermet. It’s really that simple! Why would you want to combine a metal and a ceramic? Metals, though versatile, aren’t capable of withstanding the incredibly high temperatures you typically encounter in airplane jet engines or space rockets. Ceramics are brilliant at high temperatures and able to resist attack by chemicals and things like oxygen in the air, but their sheer inertness means they’re just pretty boring most of the time. Brilliant for teapots and false teeth, but fairly hopeless when it comes to doing interesting things like conducting electricity or heat or bending and flexing. If you want something that can survive in really tough environments and still behave in interesting ways, you need to switch your attention to things like alloys, composites—and cermets.

When driving screws in the harder the material the lower speed and more torque you’re likely to need. Getting these settings right helps you to control the depth of your drilling without causing any damage.

Machine tools are another increasingly common use for cermets, which offer greater toughness and wear resistance than more traditional materials. Titanium carbide (TiC), from which many cutting and drilling tools are made, is a popular choice of cermet for tools used in milling, turning and boring, and for making threads and grooves. Typically cermet tools are made from either titanium carbide alone, titanium carbide and titanium nitride (TiN), or titanium carbonitride (TiCN). Generally, cermets provide higher cutting-tool speeds, better surface finish, and last much longer than traditional tool parts. Unlike tools coated in carbide, cermet-coated tools do not wear in the same way but effectively regenerate themselves.

Cermetsexamples

The trigger on a drill acts like the accelerator pedal in a car, the harder you press the trigger the faster the drill spins.

For example, if you are driving screws into a soft material like wood your best bet is to turn down the torque. If you leave your drill at top torque, you’re likely to run into a couple of problems.

What are cermetsused for

There’s a lot to consider when buying a new power tool. Will a cordless power tool perform as well as a corded one? Do I need 1 or 2 gears? And what on earth do people mean when they talk about the amount of torque or torque settings? To help demystify the tool jargon, we’re going to run you through the basics of what torque Settings are, why it matters and when you’ll need to use it to give you the power to make the right choice on your next tool purchase.

Torque, measured in Newton Metres (Nm), is the force that causes an object to rotate and is the best gauge to see how powerful your drill or impact driver is and the higher the number in newton metres the more twisting force it will deliver.

Think of torque settings like a clutch in a car. When you press the clutch pedal all the way in the wheels on the car lose power and speed. When you release the clutch pedal all the power goes to the wheels and they spin faster.

What are cermetsgood for

Photo: Cutting tools made from cermets last longer and produce a better surface finish than traditional carbide tools. Photo by Eduardo Zaragoza courtesy of US Navy.

The truth is there are a number of occasions where you might want to turn down the torque to give yourself more control. Variable torque settings makes your drill more versatile and allows you to complete a wider variety of jobs with the same tool.

Cermet in dentistry

“Cermet” is a generic name for a whole range of different composites. Sometimes the ceramic is the biggest ingredient and acts as the matrix (effectively the base or binder) to which particles of the metal are attached. Cermets used for electrical applications are typically made this way (in other words, they are examples of ceramic matrix composites or CMCs). But the metal component (typically an element such as cobalt, molybdenum, or nickel) can also be the matrix, giving what’s called a metal matrix composite (MMC), in which hard ceramic particles are held together by a tough but ductile metal. Cermets used in things like cutting tools are made this way.

Because you’re on the top setting you’ve got less control over how deep you’re driving your screw, so it’s easy to over shoot the mark which can split the wood and ruin your project.

Apart from better electrical properties, the metal component of a cermet makes it more ductile (capable of being drawn thin into strands or wires). It also gives better resistance against thermal shock: often, if one part of a ceramic material (such as glass) is hotter than another, it will crack fatally or even shatter; the metal part of a cermet helps to avoid this by conducting the excess heat and dissipating it safely through the material.

A 2-speed gearbox will usually give you a higher RPM (Revs Per Minute) than a single speed and this gives even more control over your project.

If you’re driving your screws into a hard wood it’s likely that you won’t feel the resistance when the screw has been completely driven. As the drill driver spins the screw has nowhere to go and as a result your screw head gets stripped making it impossible to remove the screw in the future without damaging your project.