Metalworking

What is Plasma Cutting?

Plasma cutting is one of the most common ways manufacturers cut thick metal. But, while it’s a common technique in the metalworking industry, many people may not know exactly what plasma cutters are, or how they work. 

In this article, we’re going to cover the basics of plasma cutting, what you can cut, and where the process excels. 

How Does Plasma Cutting Work?

Pictured: Tayor CNC Pipe Cutter Plasma Cutter    Source: Machines4U

The basics of plasma cutting are relatively simple. The plasma cutter creates an electrical channel of superheated gas (plasma), which then cleanly cuts through the metal. 

Of course, there is more to it than that. The plasma gas is pushed through the nozzle of the cutter, usually using compressed gas, air or water. Then, there is an electrical node or pilot light near the nozzle which electrically charges the plasma gas and heats it to a temperature where it can cut through the metal. 

The compressed gas, air or water, also blows the molten metal away from the cutting area, leaving the piece clean once the plasma has cut through it. This is generally considered the conventional method for cooling and blowing away molten metal, but there are other methods, each with their own benefits.

Methods

Water Cooled: This is one of, if not the, most conventional plasma cutting methods. These cutters make use of gas to push and create the high temperature plasma for cutting, while making use of water to cool. 

Air Plasma: Very similar to water-cooled plasma cutters, air plasma cutters make use of compressed air for their cooling. This method is primarily used for portable or handheld plasma cutters where other methods aren’t as practical. 

Dual Gas: Dual gas plasma cutting is again, very similar to conventional methods. But, rather than air or water acting as a coolant or shroud, they use a secondary gas. This gas can vary depending on the metal you’re cutting. This method does have a few benefits over conventional plasma cutting though, with higher cutting speeds and reduced risk of ‘double arcing’. 

  • Double arcing is where a secondary electric arc appears and displaces or interrupts the primary electrical channel. This can lead to instability in the plasma, which can cause damage to your workpiece or, in bad cases, injuries to the operator. 

Water Injection: Water injection is a popular method due to affordability and increased heat. This method improves cutting quality, cutting speed and reduces nozzle erosion. 

Water Shroud: Water shrouding is similar to water injection, however the water is used to create a shroud around the plasma, rather than intensifying the heat. The water shroud helps to reduce fumes and noise levels, while also improving nozzle life. As an added bonus, this method is also viable for workpieces submerged up to 75mm below water level. 

High Tolerance Plasma: High tolerance plasma cutters operate by forcing the plasma to swirl as it is injected into the nozzle, it’s also usually combined with a secondary flow of gas to ensure it maintains the rotation. This method improves the cut quality of the plasma, raising it above most traditional plasma cutters to almost the same level as laser cutters. However, high tolerance plasma cutting is generally slower than either of these methods, sometimes up to 80% slower than laser cutting. 

Why Use Plasma Cutting?

Pictured: Plasmacam Samson Plasma Cutter   Source: Machines4U

While plasma cutting has been around longer than laser cutting, it’s not always the best choice for your needs. There are various differences that will determine which one is best for your business. 

Benefits of Plasma Cutting over Laser Cutting

The major benefits of plasma cutting are the price and simplicity. Plasma cutters are generally cheaper upfront compared to laser cutters. This makes them a great choice for start-ups or for cash-strapped businesses. 

On top of being cheaper upfront, they are also simple in their use. And what we mean is that they have very simple, clearly defined roles. Plasma cutters excel in cutting through metal—only metal. While this can limit their use, it also helps them to excel in that specific field. 

While plasma cutters are generally able to cut through thicker, tougher metal of around 80mm, laser cutters can generally only cut through metal of up to 25mm in thickness. This makes plasma cutting a great choice if you need to cut through thick metal. 

Of course, there are a few drawbacks to plasma cutting. The major ones being that they can’t cut through materials other than metal, and they can’t create finer details like laser can. 

Should You Use Laser or Plasma Cutting?

Pictured: Hypertherm Plasma Cutter   Source: Machines4U

The choice between a laser or plasma cutter will depend on your needs and budget. Plasma cutters excel in the construction industry (and others of course), where they use large quantities or thick, non-detailed metal. As plasma cutters excel in cutting thicker sheets of metal, they are an ideal choice when fine detail isn’t necessary. 

On the other hand, if you’re in need of a machine capable of finer detail and mass production at a quick rate, then laser cutting is probably a better choice. Laser cutters can cut through other materials, like leather, wood and glass, and can also engrave and mark as well. 

Plasma cutting is an ideal method for cutting through thick sheets of metal. It’s affordable, and with CAD/CAM integration available, plasma cutters are a great way for businesses to efficiently create metal products of all shapes and sizes. 

If you’re looking to buy a new plasma cutter, browse through our new and used plasma cutter listings to see what’s available. 

Hamish Auld

View Comments

  • Laser marking is so much more versatile than some might believe; what seems like an efficient method of design is also an effective marketing technique and prevents forgery, among other things. Great article

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Hamish Auld

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