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What are Some of the Creative Applications of Waterjet Cutting Systems?

Did it ever cross your mind that water, as gentle and delicate that they are, can be made to cut through solid materials like thick slabs of steel? Or how would you digest this one, a bone surgery where the main star is water cutting through the bone itself? 

A strong jet of water, with a minimum pressure of 50,000 PSI, can easily become a powerful slicing and cutting tool that you can use in a sundry of applications. You can also use a waterjet system to have perfectly done perforations on material or for projects that will have you drilling some holes. 

But the most important part about it is that even expert minds from various industries agree with us in saying that the waterjet system is way more efficient when placed alongside other heat-based cutting techniques such as plasma and laser cutters.  

laser technology

This innovative material cutting method makes use of a high-pressure stream of water to cut or slice through a wide spectrum of materials, including solid metals. If you will add abrasive particles to the water, you can further intensify its cutting power and at the same time also reduce cutting process time.  

Origin of Waterjet System

Many of us think that waterjet cutting is a relatively new technology, but the truth is this method has been in use way back since the 1970s. During those days, a waterjet system of cutting is usually applied to cutting wood-fiber tubes. 

Immediately after the waterjet method of cutting was invented and introduced to the public, it soon became the material cutting method of choice of many industries primarily because it employs a cold-cutting process. It did not take a long while before it began to displace other traditional machining and cutting methods.  

Advantages of Waterjet System

There is a good reason why the waterjet method of cutting gained wide acceptance and use in a wide range of industries. Here are some of the highlight advantages that can be enjoyed by employing this method of material cutting. 

  • It does not produce dust. 
  • It does not produce or release noxious gases.
  • You can slow down the cutting process or completely put a stop on it in between process without running the risk of inducing damage to the material. 
  • It is qualified as an isothermal. 
  • You can operate it at any point in the material. 

Applications of Waterjet in Contemporary Industry

Various industries around the globe have integrated into their cutting operations the use of waterjet cutting technology. Like for instance, the aerospace industry which is known for its sophisticated operations utilizes waterjet technology not just for their material cutting concerns but also for shaping and reaming intricate aerospace components. 

The mining industry is also reaping the benefits of this technology. Strong jets of water are being taken advantage of to drill and cut through big boulders of rock in hard-rock mines.

Aside from this, the waterjet technique has also found its way into coal mines. Industry experts vouch that this material cutting technique is not just an effective approach but it is very cost-efficient, too. Hence, the wide-scale use of this revolutionary material cutting method in many different industries comes as no surprise. 

Waterjet cutting technology is also practically used to cut and slice through meats, fruits, vegetables, and other consumable items such as cakes and pieces of bread, in the most hygienic fashion. 

With the mere fact that there is a complete absence of “mechanical” contact, the odds of contamination is mitigated here. (The jet of water used in this system is so fine and thin, yet intensive enough to cut through any material sans the risk of getting the material wet or damp.)

Wrapping Up!

There are a handful of reputable companies all over the country that offer competitive prices in the cutting services they offer. Most of which offer water jets as well. You can partner up with these firms to address your material cutting and slicing concerns that involve brass, aluminum, steel, cork, marble, plastics, granite, titanium, concrete, and many more.