What laser can cut brass?

One of the most commonly used metals for various applications across a range of industries is brass.

For more information, please visit Cylion.

Providing manufacturers with a dark gold colouring and shiny appearance, brass is a great choice for applications ranging from decorative items to plumbing parts, household appliances, electrical equipment, and various types of machinery.

Brass is not only practical and decorative; it is also incredibly versatile. A blend of varying levels of zinc and copper, the material brass can produce different mechanical and chemical properties, which steel metalworks use to benefit all applications.

Sheet metal fabrication involves a series of varied processes, one of which is laser cutting and engraving.

Laser cutting is a process suitable for brass; however, brass is a reflective material, making laser cutting challenging for those with little to no experience.

In this post, we look at laser-cutting brass sheets and why working with a professional fabrication team is the best way to ensure a high-quality finished product.

What is brass laser cutting?

Brass laser cutting involves using laser technology where a laser beam is emitted from the equipment using energy to heat the brass and provide the cut.

A gas is then used alongside the laser to blow out and remove the laser-cut metal, providing a clean and precise cut.

Brass laser cutting has no cutting force to the brass, so there is no deformation of the material, allowing a professional sheet metal contractor the ability to achieve precise processing without any burrs, as well as the ability to handle large sheet sizes and varying thickness levels.

Fibre lasers tend to be used over C02 lasers as they can avoid the high reflectivity of the brass, allowing for a clearer cut. Fibre lasers also offer a higher power output and a shorter wavelength (meaning less reflectivity), which is required for brass to avoid burrs from occurring.

Fibre lasers can also melt brass quicker due to their greater energy output, and brass must be in a molten state for a clean cut.

Fibre laser cutting cuts quickly and precisely, with the cutting slit narrow and smooth. This laser technology can also handle a variety of complex patterns, making it suitable for various design applications and specifications.

(Check out one of our other posts on `what is aluminium laser cutting` to find out more about the various materials and fabrication processes required to achieve a quality cut outcome.)

Brass engraving is also popular, as we see it used on brass plates and trophy engravings. Brass engraving is the process of removing the upper surface of the brass material only, to create distinct patterns and etchings.

Laser-cutting brass sheet

Brass is a non-ferrous metal alloy that offers good abrasion resistance and a shiny surface.

However, cutting brass requires a high level of efficiency and precision, and you must be aware that:

Brass is highly reflective of infrared light, and if not managed or handled appropriately, it can reflect the laser beam, causing problems for the laser optics and even the person managing the equipment.

The laser energy used to cut brass is not absorbed well, as most of the laser is reflected. This makes laser cutting brass extremely challenging and a process that should only be carried out by experienced sheet metal fabricators.

The brass must be molten to lower its reflectivity and enable the cut. The more you can lower the reflectivity, the more you can improve the laser energy absorption, which leads to a cleaner cut.

Using laser for brass cutting

For a successful brass cut:

Use the correct power setting ' this should typically be set high, i.e., the maximum the machine can provide, as this reduces the time for the brass to become molten, reducing the time the brass is at its highest reflectivity. Ultimately, the higher the laser power, the faster the cut.

Contact us to discuss your requirements of Brass Laser Cutting Machine. Our experienced sales team can help you identify the options that best suit your needs.

Opt for the right cutting speed ' this is often set at a low speed; we recommend 10 to 15% less than the machine's maximum. The slower speed makes brass cutting much easier.

Position the point of focus as close to the top of the brass sheet as possible without affecting the material's quality.

Choose the right cutting gas'for brass, nitrogen is the best choice, as this gas can mechanically remove the cut metal, once it is in its molten state effectively. Nitrogen also helps prevent the metal from forming back again after the laser has passed through.

Material size'You need to be aware of the material size you're working with, as you will need to use the right tools and equipment, such as a machine with the right bed size to accommodate the sheet metal in question.

Sheet metal fabricators

Offering you precision, speed, efficiency, and a cost-effective brass cutting solution, the team at Morfabrication are experts in the field of laser cutting sheet metal.

We work with your design specifications and can handle even the most intricate and complex cuts.

Providing you with a finished project that is clean, has smooth edges, minimal burring, and a production process that causes minimal waste.

If you have a project coming up that requires precision fabrication, contact the team at Morfabrication today to see how we can help.

What Is Brass Laser Cutting?

Brass laser cutting utilizes a laser with enough energy to melt brass. An assist gas is used to blow out and remove the molten metal as well as maintain the clean cut.

CO2 lasers cannot typically be used to cut metals like brass, as they have high reflectivity and therefore absorb very little of the energy within the 10.6 μm wavelength beam. Fiber lasers work very well as an alternative to CO2 lasers. At the shorter wavelength, the metal reflectivity is a little lower, and fiber lasers typically have a higher power output. This allows a significant transfer of energy to the brass, and the resultant heat causes localized melting.

What Issues Most Frequently Arise When Brass Is Laser Cut?

Laser cutting brass can be difficult to do, as there are a number of issues that arise when laser cutting brass, such as the following:

1. Brass Is Highly Reflective: The primary issue when laser cutting brass is that it is highly reflective of infrared laser light (together with other metals such as gold, silver, and copper). This high reflectivity is worse at the longer wavelength of a CO2 laser compared to the wavelength of a fiber laser. The reflection of the laser beam can cause hazards for both the laser optics and the people and equipment around the laser cutter. If the laser light reflects back to the laser source, causing it to heat up past its design temperature, the laser source may be permanently damaged, necessitating an expensive replacement.
2. Brass Absorbs Very Little Laser Energy: The high reflectivity of brass means that very little of the laser energy that falls on the brass surface is absorbed, as most are reflected. Since most energy is not absorbed by the metal, it is very difficult to cut it.
3. Brass Must Be Molten To Lower the Reflectivity: Brass has a very high reflectivity when it is in a solid state. Once the material is molten, its reflectivity drops substantially, allowing a higher absorption of laser energy. The key to successfully laser cutting brass is therefore to pierce the material quickly'once that has been accomplished, the laser will then fall on molten metal and be more readily absorbed. For example, at the wavelength of a fiber laser (approximately of the order 1.06 μm), copper has a reflectivity of 95% in its solid state, but this drops to 84% when molten.
4. Brass Is Hard To Cut in its Solid State: There is some risk to the machine of laser energy reflecting back to the source when starting the cut on solid brass. It is important to try to limit the length of time that the laser is exposed to the solid metal before it begins to melt.

Which Type of Laser Cutting Is Employed When Cutting Brass?

A fiber laser is a better method to cut brass because of its higher power output and shorter wavelength compared to CO2 lasers. Brass (and other reflective 'yellow' metals) are difficult to laser cut because they reflect most of the laser energy and absorb very little. A fiber laser's shorter wavelength at 1.06 μm is better absorbed for most materials. Additionally, fiber lasers can melt brass much more quickly than other lasers because of their greater energy output. Brass reflectivity drops significantly in the molten state, so the quicker that enough energy is absorbed to start melting the material, the sooner the laser is effective at cutting. 

Check out our Brass Laser Cutting Service for parts.

What Are the Key Elements in Laser Cutting Brass Successfully?

There are four key elements to laser cutting brass successfully:

1. The Right Power Setting: Use a high power setting, preferably the maximum that your machine can provide. For example, W should be used for a 0.04-inch sheet of copper. For a thicker sheet of 0.25 inches, a power of at least W is required. High power reduces the time for the material to become molten, therefore minimizing the time that it is at its highest reflectivity.
2. Cutting Speed: Cut at a slightly lower speed. Set the cutting speed at approximately 10'15% less than the maximum rate that can be managed on the sheet. It is important to not let the cut extinguish, as that will require the material to be pierced again. 
3. Point of Focus: Keep the point of focus as close to the top surface of the material as possible, while still achieving an acceptable quality of cut. The reason is that the laser energy is focused over a small surface area, causing a higher power density and reducing the time needed for the material to melt.
4. High-pressure Cutting Gas: Nitrogen can be used to cut brass, whereas oxygen may be needed for other reflective metals such as copper. When using nitrogen for brass, the gas acts purely to remove the molten metal mechanically. For materials like copper, the oxygen reacts with the surface at the cut in order to form a copper oxide, which reduces the reflectivity of the metal.

Does Higher Laser Power Result in Faster Cutting of Brass?

Yes, using a higher laser power does result in faster cutting of brass. Brass as a solid has a high reflectivity, but the reflectivity decreases significantly when it is molten. Therefore, to cut brass well, the key is to melt it as quickly as possible to reduce the length of time in the high-reflectivity state. A higher laser power reduces this time by transferring more energy to the brass within a shorter amount of time. 

Does Slower Speed Make Brass Cutting Easier?

Yes, using a slower laser speed makes brass cutting easier. Although brass is a reflective material, its reflectivity drops substantially when molten. So long as a cut can be sustained after piercing, brass can be laser cut easily. Therefore it is important to minimize the chance that the laser will move over insufficiently heated (unmelted) brass, as doing so may extinguish the cut. To ensure that the cut is sustained, it is easier to reduce the laser speed to about 10'15% less than the maximum that can maintain the cut.

Does Employing Nitrogen To Cut Brass Work Well?

Yes, employing nitrogen gas to cut brass works well. Nitrogen does not react chemically with the molten material, but only mechanically removes the molten metal to prevent it from fusing again behind the path of the laser. Nitrogen works well, rather than needing to use oxygen to react with brass since the reflectivity of the molten brass material is low enough that the laser can continue to cut. No chemical influence by the cutting gas is required.

Summary

This article presented brass laser cutting, explained what it is, and discussed the manufacturing process in detail. To learn more about brass laser cutting, contact a Xometry representative.

Xometry provides a wide range of manufacturing capabilities, including sheet cutting and other value-added services for all of your prototyping and production needs. Visit our website to learn more or to request a free, no-obligation quote.

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