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Waterjet cutting techniques date back to the early days of the Roman Empire through the use of hydraulics in mining as well as land development. The early use of waterjet technology was primarily targeted toward soft materials, but modern upgrades have changed the paradigm entirely.

Nowadays, we can find waterjet cutting techniques employed by global industries ranging from aerospace and engineering all the way to upgrades within the food industry.

Understanding Waterjet Cutting

Waterjet cutting machines utilize highly pressurized streams of water. These streams of water are pushed through a jewel orifice where they are condensed down into a single, powerful jet of water as slim as a strand of a human hair!  This thin-and-powerful stream of water is then applied to a material at an ideal speed while following a specific pattern.

Let’s explore the modern waterjet cutting industry as well as its various applications in today’s climate.

How Waterjet Cutting Can Benefit My Project

Waterjet cutting is an intricate process that can be found in many of today’s surging industries. Useful for a variety of applications ranging from aerospace design to small gaskets, there are quite a few ways that readers can benefit from waterjet cutting for their next project.

Here are a few of the industries most beholden to waterjet cutting.

  • Aerospace Industry — The aerospace industry within the United States had been decreasing until 2019 when defense exports exploded. Within the aerospace industry, waterjet cutting is used to craft the bodies of many of the military aircraft we are most familiar with. This requires the waterjet cutting machine to cut through titanium metal, a benefit provided by the lack of heat created by waterjet cutting.
  • Food and Manufacturing — Waterjets are particularly useful in today’s fast-paced food and manufacturing sectors. Waterjet cutting is used to cut through frozen meat (chicken, fish) as well as for cutting apart vegetables while maintaining sanitary practices.
  • Rubber Gaskets — Without these small rubber gaskets, our lives would be very different! Gaskets are pivotal to the proper operation of engines, mechanical devices, and other machines. Waterjet cutting is used to craft gaskets for marine, aerospace, and vehicular applications.
  • Electronics and Computing – The devices that we rely on throughout our lives are beholden to waterjet cutting techniques, as well. Waterjet cutting is employed for the crafting of circuit boards in addition to stripping insulation from electrical wires.

Waterjet cutting offers an efficient, effective, and stress-free approach to precise designs in a fast-paced setting. Capable of cutting through materials ranging from fiberglass to titanium, waterjet cutting is a reliable solution for industries across the board!

Explore Waterjet Solutions at Western Fence Company

Western Fence Co is proud to serve as Utah’s oldest fence company. Established in 1948, the team at Western Fence Co. specializes in creating, designing, and installing all fence types for commercial and residential applications.

After acquiring the OMAX 80X Series Waterjet in addition to the Dynatorch CNC Plasma Machine, Western Fence Co. is now uniquely suited to craft the unique fencing solution your home or business needs.

Contact the team today to book a free consultation!

If you need to cut materials to exceptionally high tolerances, waterjet cutting can help. Waterjet cutting is a cold cutting technology that can produce high-precision cuts in a wide variety of materials. As a cold cutting process, it can be used in materials that cannot be cut through plasma cutting or other methods. Here are some of the major benefits of waterjet cutting.

1. It Doesn’t Produce Heat

Other types of cutting, like plasma cutting, will produce heat. Under this heat, some materials will warp, burn, or become brittle. Waterjet cutting is well-suited to these types of materials (such as plastics) because it can provide a precision cut without any heat.

2. It Can Cut Virtually Any Material

Waterjet cutting is flexible and versatile. It can cut many types of material, including reflective materials, and uneven materials. The highly pressurized waterjet can even cut through stacked materials, to produce multiple cuts at once. Waterjets are powerful enough to cut through electronic devices and solid metal.

3. It’s an Environmentally-Friendly Solution

Unlike other methods of cutting and fabrication, waterjet cutting doesn’t involve any harsh chemicals. Waterjet cutting won’t burn anything, so it won’t release anything hazardous or toxic into the air. This is not only great from an environmental standpoint but also better for workers who are working with waterjet cutting frequently.

4. It Can Cut in Any Direction

Waterjet cutting is performed like other CNC operations: The computer is loaded with a pattern and then the cutter cuts a line. But unlike other CNC operations, waterjet cutting can cut in any direction. Materials can consequently be cut into nearly any shape. Other types of cutting have to be done in straight lines on an axis, or can only cut from top to bottom or from left to right.

5. It’s Extremely Fast

Waterjet cutters can cut through even metal quickly. For rapid prototyping, it’s a very fast way to produce a part — but it can also be used for hundreds or thousands of parts. Of course, the exact speed depends on the machine and the strength of the pump. Some of the fastest cutters can cut through inches of titanium within seconds.

6. It Produces Very Clean Edges

Because it isn’t burning or warping the materials, waterjet cutting also produces very clean edges. The work that has to be done on parts once they have been cut out is minimal — it can even be entirely absent. This makes waterjet cutting a preferable method for those who don’t want to do further finishing.

There are many industries that take advantage of waterjet cutting, for its fast performance, versatility, and cold process. Nearly anything can be cut, ranging from hard metals to food — and the process is both fast and clean. Waterjet cutting is frequently used for rapid prototyping, and other times in which distinct and discrete parts need to be created on-the-fly. However, because the process of setting up the system is purely digital, it can also be used to produce parts of any quantity.