Are you considering purchasing a plasma cutting machine but are not sure if this is the right cutting system for you?

If yes, you have come to the right place!  

Arguably one of the most innovative cutting machines currently on the market, CNC plasma cutters are able to cut through both thin and thick materials and offer a cost effective, highly efficient way to cut through metals such as mild steel.

Still not sure if you should invest in plasma cutting systems?

Keep reading to find out all of the advantages and disadvantages of CNC plasma cutting so that you can make the best decision for your business.

Advantages of plasma cutting machines

Utmost precision

Due to the plasma arc, plasma cutting machines offer the utmost precision, which makes them ideal for cutting intricate shapes. In fact, they can be guided with the same level of precision as drawing a line with a pencil.

High speed

Plasma cutters are able to cut very quickly, making them one of the most productive and efficient cutting methods. These fast process times also mean that there is less risk of metal abrasion and cutting errors.

Versatility

Plasma cutting can be used on a wide variety of metals, including to cut steel, iron, copper and alloys due to the power of the pilot arc. Furthermore, they provide a high quality cut edge every time.

Computer controlled

If you are looking to maximise productivity, you should know that plasma cutting machines can be computer controlled. This means that you do not need as many workers to operate them and that you can continue to work outside of your current operational hours.

Cost effective

Plasma cutting equipment is widely recognised as great value for money. Plus, plasma torches rarely require maintenance, so you will not need to spend money on replacement parts.

Disadvantages of plasma cutting machines

Can only cut through materials of about 1 inch

While a plasma cutter can cut through pretty much any metal that conducts electricity, in terms of thickness, it can only accommodate around 1 inch.

The cutting process is noisy

Although you are probably used to a little, or a lot, of noise in your workshop, you should know that plasma cutters tend to be loud. Plus, generate a lot of fumes, so you need to make sure your workspace is well ventilated.

Eye protection is needed

The electrical arc creates very bright flashes during the cutting process, so you need to make sure that every one of your workers are supplied with protective goggles and offered safety training.

Would you like to know more about plasma cutting machines and how they can help your business? Contact us here today and one of our team will talk you through our plasma cutting machines to help you pick the right one for your cutting needs.

Thinking about purchasing CNC plasma cutters but are worried about how they need to be operated?

While using a plasma cutter for the first time may seem like a daunting process, the plasma cutting process is actually fairly straightforward, and you will be amazed at the high quality finish that they deliver.

What is plasma cutting?

Plasma cutting offers a highly efficient and cost effective way to cut steel and any other metal that conducts electricity. Using DC voltage to heat compressed air to a very high temperature, plasma cutting machines then ionise the atoms to create a pilot arc.

It is this small jet of plasma that pushes through and melts the metal, resulting in a precise cut edge and superior finish. 

How to set up plasma cutting machines

Using plasma cutting machines is simple and straightforward. All you need to do is follow the below steps.

  1. Connect your plasma cutter to your chosen air compressor.
  2. Connect your plasma cutter to either a 240V or 415V supply. This will be dependent on how powerful a machine you bought.
  3. Connect the earth lead to your workpiece
  4. Connect your plasma torch to the cutting machine
  5. Select your cutting amperage – the thicker the material, the higher amperage needed
  6. Press the switch on your torch handle and move the torch across the work as the electric arc cuts the metal.

You can choose to start from the edge of the piece or make a hole in the middle of the metal. Plasma cutting machines are capable of cutting through both thin and thick materials, and you can cut different sizes and shapes using templates.

In terms of ease of use, plasma cutting machines are hand held and have no heavy gas bottles that you need to transport around. They can be easily placed on the cutting table and carried from one work space to another.  

Plus, if you have a large work order and need to cut outside of normal working hours, plasma cutters can be computer controlled, so less power is needed, and you can still expect a high quality, precise cut.

How to cut at the right speed

If you cut too slow, your plasma arc machine may start to splutter. However, if you cut too fast, you may experience a poor cut quality and a blowback of dross.

Therefore, you need to make sure that you are cutting at the right speed. To determine this, when you are cutting from the edge of the material, you need to ensure that the metal has been fully cut through and that the dross is coming out at a maximum of a 10-20 degree angle.

If the angle starts to increase and gets close to a 45-degree angle, you need to slow down your cutting speed. If you are struggling to get a precise and clean cut, you may need to increase your amperage.

Not sure which plasma cutting machine to buy for your business? Contact us here and we will talk you through your cutting needs and plasma cutting options.

Are you wondering if you can use a plasma cutter without an air compressor? If yes, you are far from alone. Although most plasma cutting machines come with an air compressor, you can find some units that come without this useful component. This can be confusing for beginners, especially, and might have you questioning, does that mean that we don’t need one? Let’s take a closer look.

What are the components of a plasma cutter?

If you have not seen a plasma cutter up close and personal before, then it can be difficult to understand how they are set up. There are several vital components that all plasma cutting machines need to have in order to function properly.

These are:

How is an air compressor used in plasma cutting?

Plasma cutting uses a combination of heated gas and electricity to cut through various metals such as stainless steel and aluminium, but where does compressed air come into play?

It’s simple really. The reason why people use plasma cutters is that they are able to harness high-intensity heat for a superior cut quality. However, it is through the use of an air compressor that this heat is directed to the metal, allowing for a more precise cut.

The amount of air pressure that you need when using a plasma cutter is about 4-8 SCFM delivered at 90-120 psi. This covers units that are intended for up to 3/8 inches thick steel to large units that can handle 7/8 inch steel.

Ideally, you should choose an air compressor with a CFM rating that is 1.5 to 2 times higher than your plasma cutter.

Should you invest in an air compressor?

There are multiple reasons why you should invest in an air compressor to use alongside your plasma torch, with one of the most notable ones being you can enjoy a more precise and cleaner cut. In fact, if you want to make the exact same cut time and time again, then an air compressor is a definite must.

Another benefit of using compressed air is that you can find high-performing plasma cutting machines that have built-in air compressors. Not only does this allow for portability but it also means you will only have one power cord which can make the laser cutting experience easier.

Whether you think that a portable air compressor and plasma cutter combo is the right choice for your cutting needs or you are unsure still, contact us here and let us find the perfect plasma cutting machine for you.

Are there any downsides to using an air compressor?

If you are wondering why some people choose not to use one of these pneumatic tools, then you should know that it predominantly comes down to cost. Whether you choose to purchase a separate air compressor or you opt for a built-in model, you are still going to have to spend a little bit more money.

Another factor that puts some people off buying built-in air compressors is that these rely on a fixed air pressure, which means that any leaks will have a serious impact on your ability to cut.

All of the above being said, a built-in air compressor can transform your cut quality and provide a level of flexibility that you won’t get from buying a separate unit.  

Favoured by automotive repair shops, fabrication shops, industrial construction sites and salvage operations due to their high speeds and precision cuts, plasma cutters can be used to cut through a wide range of materials, including stainless steel, brass, aluminium, and copper.

However, can they cut through very thick material? This is a typical question that many people have asked in the past before buying their plasma cutter, and it is sensible to do so. Let’s take a closer look below.

How does a plasma cutting machine work?

Our high-end plasma cutting machines use compressed air and special gas to produce a plasma reaction that can cut through metals such as aluminium and stainless steel. In fact, any conductive metal is well suited for using a plasma cutter, including:

That being said, the thicker a metal is, the more hazardous it can be. You should expect sparks to be produced, so you need to ensure you are sticking to your machine’s cutting capacity and that you are taking all the necessary safety precautions.

How thick can a plasma cutter cut?

Plasma cutters provide an effective way to cut both thin and thick materials. However, depending on the machine that you choose, they do have their limitations.

Typically, a handheld plasma torch can cut up to 38mm (1.5 inches) thick steel plate. Whereas, if you need something a bit more powerful, an industrial computer-controller torch can cut steel up to 150mm (6 inches) thick.  

You also need to consider the type of metal that you are cutting. For example, if you are cutting a piece of mild steel, you will experience faster and thicker cuts than with alloys.

How to choose a plasma cutter

Many plasma cutting power sources are rated on both their cutting ability and their amperage. If you want to mostly cut ¼ inch thick materials, you should opt for a low amperage plasma cutter. However, if you regularly cut metals that are around ½ inch thick, then you will need to seek out a higher amperage unit.

If you choose a plasma cutter that operates at the limit of its cutting capacity, both your cutting speed and the quality of your cuts will be affected.

Each one of our plasma cutting units has an optimal range of cutting thickness so that you can easily match the machine to your needs.

Carry out Tests to Help you Decide

If you are not sure which plasma cutter to choose, it can be a good idea to test cuts on a number of different machines, travelling at the same rate of speed on the same thickness of material so that you can see which one offers the highest quality of cut.

You should also look for a machine that provides a quick transfer from pilot arc to cutting arc at a large transfer height, as this will ensure you have better support when cutting.

If you are still not entirely sure whether a plasma cutter is the right choice for your cutting needs, or you need help on choosing the right plasma cutting machine, contact us here and our knowledgeable team will do their best to answer your questions.

Plasma cutting is one of the fastest, most efficient ways to cut metals such as carbon steel, stainless steel and aluminium, allowing you to cut through materials up to 6 inches thick.

However, to achieve a superior clean cut, you need to make sure you are using the right type of gas for your material. There are several gases that are used in plasma cutting, with each one having its own advantages and disadvantages. Find out below which gases are used in plasma cutting, plus what gas you should use for each type of metal.

Compressed air

Air is one of the most adaptable forms of gas on offer, and as you don’t have to purchase it, this dramatically lowers the cost of the overall cutting process. That being said, shop air is a superior choice as it is cleaned before sold, thus eliminating contaminants such as oil, mist and moisture.

For cutting aluminium:

For cutting carbon steel:

For cutting stainless steel:

Oxygen

If you want fast speeds with lower power levels when using your plasma cutting machines, then oxygen is the plasma gas for you. Ideal for cutting structura- low carbon and low alloy steel, it can be used for cutting materials with a variety of different thicknesses.

For cutting aluminium:

For cutting carbon steel:

For cutting stainless steel:

Nitrogen

If you need to cut large amounts of aluminium or stainless steel, then nitrogen is a great choice. This plasma gas offers excellent parts life but is not the best option for thick materials.

For cutting aluminium:

For cutting carbon steel:

For cutting stainless steel:

Hydrogen

Hydrogen plasma gas is classed as environmentally friendly as it reduces the emission of Co2. This gas contributes to increased productivity due to its high-speed cutting.

For cutting aluminium:

For cutting carbon steel:

For cutting stainless steel:

Argon

For materials that are greater than ½ an inch thick, argon is good to use. Argon does not react with metals when cutting, which is why it is classified as an inert gas.

For aluminium cutting:

For carbon steel cutting:

For stainless steel cutting:

Argon-Hydrogen

You can also use an argon hydrogen mix to cut through stainless steel and aluminium. This is usually a percentage of 35 hydrogen and 65 argon. This option offers maximum cutting capacities and is the hottest plasma gas available.

It should be used for any cutting processes that involve materials that exceed a 3 inches thickness.

Plasma Gas

As well as the five named plasma gases above, plasma gas can also be further categorised into three different phases:

Need help picking the right case for your plasma cutters? Get in touch with our friendly and knowledgeable team here.

If you work in the metal cutting business, you will know only too well how strong this material is, and this is why it is used to build some of the world’s most important creations. Unfortunately, it’s this immense strength that also acts as its main weakness. To put it bluntly, metal is extremely hard to manipulate and mould.

Or this would be the case, if no one had invented plasma cutting machines. With the ability to slice through metals such as stainless steel, aluminium, brass and copper with little to no resistance, you can enjoy superior cutting quality and high speed when you choose to invest in plasma cutting machines.

How does a plasma cutter work?

A plasma cutter works by sending an electric arc through a gas such as oxygen or nitrogen that is passing through a restricted opening. Using this extreme heat, plasma cutters can increase the temperature of the gas and convert it into plasma gas. This results in the ability to pass through metals and create clean lines and sturdier constructions.

Generally, this method of cutting metals is safer than using a manual saw which is why it is favoured by so many metalworkers.

What sort of work is plasma cutting used for?

Plasma cutting machines are used in all sorts of metal fabrication projects and are often found on construction sites or salvage yards. They can also be used by designers and sculptors and in the production process of decorative panels for interior projects.

In several mild steel products, plasma cut metal is combined with metal finishing processes such as powder coating for a coloured finish.

Plasma cutters can be used to cut a straight line, for cutting shapes and even for cutting bespoke images. Check out our ultrasharp plasma cutting machines that use the latest cutting technology to provide the highest quality cut each and every time.

What types of plasma cutters are available?

Plasma cutters are used in a wide variety of different industries, including construction, manufacturing, auto shops and locksmiths. There are two main types of plasma cutters that you can choose from: manual plasma cutters and mechanised plasma cutters.

Manual plasma cutters, aka a plasma torch or a plasma arc, tend to be handheld and are smaller, portable and often more versatile than their mechanised counterparts. These types of cutters are usually used for light metal applications.

Mechanised plasma cutters, on the other hand, are better suited to large scale jobs. Typically these cutters have more features and are used in conjunction with cutting tables. They are not portable and require a large power supply to work.

The type of plasma cutter that you choose will be dependent on the size, shape and thickness of the material that you need to cut.

Need help choosing a plasma cutting machine for your business? Contact us here today, and we will share our knowledge of high precision cutting with you.

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