What is the ideal potential for cutting or etching metals with your Precision filters Laser? Big size high precision etching filters are useful instruments that can be common for a wide range of tasks. The most diverse processes are easy to change, from the most expensive and precious materials to the most economical ones. Understand how it works, as well as its benefits and weak points no
The most diverse processes are easy to change, from the most expensive and precious materials to the most economical.
Understanding how it works, as well as its benefits and weaknesses in the application, is essential in deciding if this is the technique and power that's right for the type of cut or etching you need.
In this sense, we created this article, so that you can know the ideal power to cut or engrave metals and other related points.
Big size high precision etching filters is a lightweight thermal cutting process that produces a very precise cut groove by combining the operation of a laser beam with a neutral or oxidizing auxiliary gas, depending on the materials and cutting results required (oxygen, nitrogen, or argon).
This is a critical step in the automotive parts production process.
CO2 lasers (from 1kW to 20kW): to produce a beam, a laser gas is needed. This will then be transmitted to the shaving head through a series of mirrors in a safe optical direction.
Solid lasers (1–30 kW): disk or Big size high precision etching filters capable of beam transfer using precision filters laser.
Metal is a substance commonly common in the manufacture of the most diverse goods and structures in the areas of engineering and civil construction.
The cutting method is often common to convert them, adapting these products to the needs of the production operation.
In these operations, the photo etching system works, allowing fast and precise cuts with absolute performance, user convenience, and excellent use of raw material.
The photo etching system is composed of a robust, resistant, and ergonomic construction that houses ahead with Big size high precision etching filters laser technology, and CAD / CAM applications.
The heads have power ratings ranging from 1kW to 6kW and can cut mild steel, stainless steel, and aluminum foil.
Already the software of the photo etching unit, as EZCAD allows the court schedule, resulting in better use of the plate as well as the possibility to produce or import sketches from other CAD programs.
Let's define the limits of photo etching and, above all, beware of those who say it doesn't exist!
The first limitation is the workable thickness: the greater the thickness, the lower the photo etching efficiency.
We recommend at least the 50W Big size high precision etching filters for cutting sheets of thickness from 0.3mm to 0.7mm. For sheet cuts from 0.7mm to 1.5mm, we recommend the 100W one. Remember that depending on the hardness of the metal this can vary, as well as the cutting speed.
In addition, smaller lenses such as 70 x 70, 100 x 100, and 110 x 110 mm are most recommended for cutting. Larger lenses start to lose a lot of power.
Trying to cut substrates outside the manufacturer's specifications at all costs will result in overheating and burns.
To resolve the first constraint, keep the beam cut concentration intense and the spot diameter small.
Furthermore, you will be able to achieve superior cutting accuracy thanks to the focus adjustment operation.
You'll also get better gas handling on thicker media this way.
Customers will now enjoy the following benefits when using this Big size high precision etching filters:
Ease in the manufacture of components and construction of structures, which directly leads to improved productivity;
Greater competitiveness due to shorter response time for creating products and supplies;
Potential to handle different metallic products, which improves the applicability of the photo etching machine in production processes.
The purpose of this article is to clarify the fundamentals of the functionality of the EZCAD system to perform an etching by the Big size high precision etching filters.
A laser, unlike a kitchen light, emits an invisible beam of light (usually infrared or ultraviolet) that is intensified and common along a short straight line. This means that, unlike "natural" light, lasers are more powerful and can reach farther.
The name of your laser etching and cutting machine is derived from the source of your laser (where light is generated for the first time).
Incidentally, CO2 and precision filters lasers are the two most common varieties.
Therefore, in this article, we are going to show you how to perform a Big size high precision etching filter using the EZCAD system.
The most significant benefit of the precision filters laser is its ability to ensure consistent aesthetics of the pieces to be sliced.
The laser beam cuts continuously, allowing for better precision and a perfect finish.
In addition to its ability to work with complicated shapes, there are other benefits to using photo etching for metalworking workers.
A Big size high precision etching filter can do photo etching as well as laser etching.
Since etching serves to leave an identification mark or to place objects, it has a more utilitarian than a decorative role.
Depending on what you want to do you will have to change the speed and power. So for deeper marking, you should decrease speed and increase power.
Conclusion
Always remember to take care of the focal point, and respect the 19 cm (check if this is the distance between the lens and the object on your camera) so that the laser works at its maximum power.
