Waterjet cutting technology has come a long way since its inception, and it has become one of the most popular precision cutting methods for a wide range of applications. With its unique benefits, such as no material restrictions, no heat-affected zone, no deformation of materials, no extra finishing steps, and no hazardous waste, waterjet cutting has revolutionized the manufacturing industry. But what is next for waterjet technology? How can we expand its realm of applications and unlock its full potential?

 

One company leading the charge in this field is Finepart, a public innovative and technology-oriented entity that develops and sells the FinecutTM machine for component manufacturing with high precision. Finepart is a world-leading provider of non-thermal precision cutting for fine mechanics, utilizing ultra-high-pressure water to create a jet that accelerates fine grit (abrasives) and removes material by particle erosion. Their technology has been used in leading companies across various industries, including medical devices, power-to-x, luxury goods, electronics manufacturers, and contract manufacturing.

 

With its non-thermal micro abrasive waterjet technology, Finepart has expanded the possibilities of waterjet cutting applications. They have achieved ultimate precision cutting of high-quality advanced materials, allowing manufacturers to achieve higher productivity and profitability by increasing machine utilization, lower labor and material costs, and significantly reducing rejects in quality control. Finepart’s technology has the potential to transform the manufacturing industry, making it more efficient, cost-effective, and environmentally sustainable.

 

 

 

It might be better to use medical devices as an industry here and prosthetics as examples (titanium implants, dental braces, etc.) The electronics industry is another example, like hearing aids with tiny print boards that require ultra-high precision. Finally, Power-to-x (conversion of one form of power to another, where turbines with high RPM require ultra-high precision. Building is not in need of such high accuracy.

 

The main five bullet points on the possibilities and potential of waterjet and micro waterjet cutting technology:

 

  1. Waterjet cutting is a highly versatile technology that can cut through almost any material, making it suitable for various industries, including aerospace, automotive, medical, and more.
  2. Waterjet cutting’s cold-cutting technique prevents the formation of heat-affected zones, resulting in a clean cut without material deformation, making it ideal for precision cutting advanced materials.
  3. Micro-cutting eliminates the need for additional finishing steps, saving time and improving efficiency.
  4. Waterjet cutting is an environmentally friendly process that produces no hazardous waste from fumes or gases, making it a sustainable and cost-effective alternative to other cutting methods.
  5.   cutting’s non-thermal micro abrasive technology enables high-precision cutting with minimal waste, significantly reducing rejects in quality control and increasing productivity and profitability for manufacturers.

 

In conclusion, cutting technology has transformed the manufacturing industry and can potentially revolutionize other industries and fields. With its non-thermal micro abrasive waterjet technology, Finepart has expanded the possibilities of waterjet cutting applications, allowing for the ultimate precision cutting of high-quality advanced materials. But the applications of cutting technology are not limited to advanced materials; there are numerous possibilities across various industries, including automotive, aerospace, medical device, power-to-x, and electronics manufacturing. Waterjet cutting technology is a versatile and cost-effective method that can help businesses become more efficient, productive, and sustainable, unlocking their full potential in future years