It’s an industrial processing tool that’s been likened to a Swiss Army knife. Lasering has certainly come a long way since the 1960s to the point where there are almost as many applications as there are industry sectors.
From PCB precision cutting and ultra-fast FMCG marking and coding to high-end cosmetic packaging and bespoke fashion finishes, laser technology has transformed how many industries work.
Why Do You Need to Fume Extraction for Laser Processes?
The evolution into the latest generation of fast fibre lasers continues to broaden this demand and with it a growing range of materials being worked, whether that’s metal, plastic, MDF, PVC, acrylic, textile or new generation functional materials developed for laser 3D printing. What all these processes have in common is fume or particulate emissions at the point of ablation…which is why you need laser fume extraction to help maintain productivity and contribute to a clean, healthy working environment.
Take the FMCG drinks market for example, where the speed of laser coding is critical to productivity. The frequency at which a laser is firing, the wavelength at which it operates and the power density it generates are all factors that govern how quickly and accurately a laser can operate.
However, what manufacturers increasingly understand is that laser fume and dust extraction technology, such as the portable systems developed by Donaldson BOFA, also needs to keep pace with line speeds to filter particulate that could otherwise contaminate laser lenses, damage product quality or negatively impact on atmosphere management.
Keeping Pace with the Demands for Laser Fume Extraction
For Donaldson BOFA, this means understanding the size and chemical profile of emissions in order to implement an appropriate filtration strategy. At the same time, understanding the impact of momentum on the ability of particulate to ‘travel’ beyond the point of ablation requires detailed airflow analysis and a corresponding refinement of system architecture and control systems.
“Where manufacturers are considering the use of lasers, it is advisable to contact Donaldson BOFA at an early stage because there are many dynamics at play in filtration and extraction performance,” explains Geoff Sagar, Product Manager, Donaldson BOFA.
“This engagement will enable our engineers to make a detailed assessment of what is being emitted and recommend the precise system design to create optimal conditions for laser performance and to return clean air into the workplace.”
Why Laser Fume Extraction is Essential
This was only noticed when residue started to appear on a surface away from the immediate laser area. The solution was to add a second-stage filtration point.
Why Temperature Control is also Important to Consider
It’s not just fume and dust that laser operators need to consider. Fibre lasers operate at high speeds and accuracy and, consequently, generate significant heat. Donaldson BOFA has developed a range of temperature control and cooling units that help ensure the laser head is kept at a temperature that optimises reliability and performance while protecting the integrity of high-value equipment.
At the same time, manufacturers also need to understand that fibre lasers working with aluminium can under certain circumstances create a thermal event. So, Donaldson BOFA has developed the FireBox MA and the Spark Arrestor 2 to intercept and retain any hot embers before they reach the extraction system.
What Role Our Smart Technology Plays
In short, better operational data and information means better fume extraction performance, enabling planned filter exchanges linked to production scheduling, avoiding unnecessary downtime.
