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Hydroabrasive cutting: An innovative method of processing various materials

Hydroabrasive cutting is one of the most effective and versatile methods of cutting various materials. This process uses water under high pressure to create a stream that is capable of cutting even the hardest materials. In this article, we will consider the advantages and features of waterjet cutting and its application in various industries.

Hydroabrasive cutting: Technology and advantages

Hydroabrasive cutting is a highly accurate and efficient cutting method that allows you to process various materials with high precision. This process uses high-pressure water that is mixed with an abrasive material such as sand or corundum pellet to create a stream that cuts the material. Here are some advantages of waterjet cutting:

High precision: Hydroabrasive cutting allows you to obtain high-precision products with minimal deviations.

Ability to process different materials: This method is suitable for cutting almost all kinds of materials, including metal, stone, glass, ceramics and others.

Minimal deformations: Hydroabrasive cutting does not heat the material, so it minimizes the deformation and internal stresses of the product.

Environmental friendliness: Water is an environmentally friendly material, so waterjet cutting is more environmentally friendly compared to other cutting methods.

Application of hydroabrasive cutting in industry

Hydroabrasive cutting is widely used in various industries. It is used for the manufacture of parts for the automotive, aviation and shipbuilding industries, as well as for processing glass, stone and other materials. Hydroabrasive cutting allows you to create complex shapes and structures, which makes it indispensable in the production of high-quality products.


Hydroabrasive cutting is a highly accurate, efficient and versatile method of processing various materials. It provides a high quality cut and minimal loss of material, which makes it popular in many industries. Hydroabrasive cutting continues to develop and find new applications, which confirms its importance as a modern and effective method of processing materials.



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