Can you deep engrave metal with your Co2 Laser? You can with Laser2Etch 

The main advantage with chemical etching is that it etches the whole surface area of the material at the same time. A laser has to mark each area individually often making many passes to achieve tangible depth. With chemical etching the amount of detail and size of the etch area has little effect the process time. This means that’s possible to deep etch even large & complex designs in minutes. 

Etching is a non-contact process. The material is dissolved atom by atom producing a smooth burr free finish leaving the material grain structure unaffected. There is no heat distortion as associated with laser processing and no tool wear that can occur when processing hard metals such as stainless steel by mechanical engraving methods. 

The increased etch depth makes color infilling straightforward allowing for the reproduction of logos and insignias. Another advantage with working with real metal is the variety of materials and finishes available, ranging from mirror finished stainless steel to aged and distressed brass. 

Etching has many varied uses within the signs & awards industry including outdoor and indoor signage, memorial plaques, industrial nameplates, offshore & oil signage, awards, medals, custom gifts, jewelry and much more. The quality and permanency of etched metal make it an ideal solution for a wealth of applications. Chemical etching is also widely used in the production of printed circuit boards and the production of precision thin metal components for use in the electronics, automotive and aerospace industries. 

The most common method of etching is called photochemical etching. In this process the material is cleaned and then laminated with a UV-sensitive photoresist. A photomask is created by printing the artwork as a negative onto a clear piece of film. The photomask is placed on top of the material in an exposure unit and a vacuum is drawn to ensure contact between the phototool and the metal plate. The plate is then exposed under UV light that allows the areas of resist that are in the clear sections of the film to be hardened. After exposure, the plate is "developed", washing away the unexposed resist and leaving the areas to be etched unprotected. Photochemical etching is a process that has stood the test of time and consistently delivers excellent results. It can reproduce extremely fine detail. However, it can require a big commitment of space and additional equipment to get started. One way around this is to use your existing equipment to handle the artwork portion of the process.

Using a laser to create the mask is one of the simplest and easiest ways to get into chemical etching. This process has become more refined over recent years and it’s now possible to achieve results on par with Dry film, crucially matching both the level of depth and detail. The material is spray coated with a laser engravable etch resist which is then cured in an oven for 15 mins at 150°f. Once dry the material is ready to engrave.The laser removes the resist layer, exposing the bare metal underneath, to create the mask. The material is then ready to etch. This process is compatible with both Co2 and fiber laser wavelengths although settings will vary from system to systems. This process is a good option for short to medium sized runs and for producing serialized and variable data products. It’s also a great way to chemically etch objects that would be difficult to process using Dry film, which is typically restricted to flat items. 

As with working with any chemical it’s always important to wear protective clothing and follow all handling guidelines. It’s important also to dispose of any used chemical safely and in compliance with all local laws and regulations. The life span of the chemical bath is ultimately dependant on the amount of etching you do. Over time as metal is deposited into the solution will gradually lose its strength. Fresh chemical can be added to compensate for this. Typically you can expect to have to change the solution entirely every six to twelve months. As a good rule of thumb, you can expect to pay roughly the same to get your used chemical taken away as it cost to buy initially. Depending on the size of the room where you are you are carrying out your etching you may also need to consider fume extraction. 

It’s often said that etching is more of an art than a science, which is fitting as many of the techniques still in use today owe a debt to the pioneering work of the Dutch master Rembrandt. It’s a rewarding and creative process with endless possibilities. Chemical etching is a great way to increase your range of products and services whilst utilizing the skill and equipment already at the heart of your business.