In the industrial world, the identification and traceability of metal parts are essential in many businesses. Proper identification ensures accurate tracking through manufacturing, aiding in quality control and regulatory compliance. Traceability allows for efficient maintenance and swift action in case of recalls, enhancing safety and operational efficiency.
Metals are used for their durability, high strength, flexibility, and resistance to wear, making them ideal for industrial production.
Our advanced metal marking machines deliver precision and durability, providing high-quality, permanent marks such as serial numbers or 2D codes. Explore our range of products to find the perfect solution for your metal part marking needs, ensuring reliable and effective part tracking throughout the lifecycle of your components.
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Our metal laser marking machines can identify parts without contact and do not require it to go through pre-treatments or post-treatments. The result is a permanent, resistant, high contrast marking with a very high definition finish, all without damaging the metal :
Integrated laser system to mark and engrave on all metals.
Integrated laser system for high quality marking on plastics and metals.
Integrated laser system for high quality and cold marking on plastics and precious metals.
Small laser engraver for all kind of engravings.
Medium fully automated laser marking station.
Large fully automated laser workstation with Fibre, Hybrid or Green sources
Metal part marking by dot peen or scribing equipment is performed thanks to a tungsten carbide stylus.
For dot peen marking, the stylus comes into contact with the surface and deforms the material through a succession of impacts, resulting in a hollow marking. Every of these metal marking machines (Impact, XF510p, XF510m, XF530) permanently marks industrial parts with a tamper-proof serial number, 2D code, etc. The XF series are to be fitted to a production line, while the Impact can be used on a benchtop.
While for scribing, the stylus scratches the material’s surface, leaving a deep groove. This is performed more quietly by machines like the XF510r and SV530. This elegant marking method is primarily used for VIN codes.
Standalone dot peen marking station.
The fastest pneumatic dot peen marking machine.
The most precise and consistent electromagnetic dot peen marking machine.
The quiet metal scribing marking machine.
The VIN scribing marking machine.
Because of the very nature of lasers, their interaction with parts can be altered according to the marking parameters and the part itself. Identifying parts with a metal laser marking machine can produce the following effects:
Dot-peen marking has the advantage of being fast and durable. Using a hard carbide tip, this technology deforms the surface of any metal and creates a small cavity of up to 0.3mm. This technology has three main marking methods:
Simply put, this technology consists of a hard tip scraping and scratching the surface of the metal part.
This method produces aesthetic metal markings, shallow or deep. Some key features are:
Rotary metal part marking can produce a variety of thin to deep markings thanks to the range tools: cutters and diamond tips. In addition, rotary metal marking machines can hollow or cut parts. Here are the most common marking types in the industry:
When choosing metals for industrial part marking, it is essential to understand the unique properties and benefits each metal offers. Common metals used in the industry are selected for their specific advantages, such as durability, corrosion resistance, strength, and other key features. These characteristics make them ideal for various metal part marking applications. Let's explore the key characteristics of stainless steel, aluminium, copper, titanium, and carbon steel.
Commonly named steel, this metal is easily marked with laser, dot peen, scribing and rotary marking technologies.
This metal can be marked with either laser, dot peen, scribing or rotary marking machines.
Aluminium is mainly marked with dot peen and scribing marking machines.
The main marking technologies used on this metal are laser, dot peen, scribing and rotary.
Want to mark copper?
Because of its hardness, our recommendation is to use laser, dot peen or scribing marking technologies to identify your titanium parts.
Want to mark titanium?
In addition to raw metals, coated and anodised metals are widely used in industrial applications. Metal coating is the application of a protective or decorative layer to a metal surface, while anodisation is an electrochemical process that increases the thickness of the natural oxide layer on the surface of aluminium for example.
These treatments are part of what is called pre- and post-treatments. Some notable examples would be:
These treatments significantly enhance the properties and qualities of metal parts, but come with constraints when identification and traceability of industrial metal components is to be considered.
Pre- and post-treatments of metal parts are crucial processes in the industry to increase durability, protection against abrasion or add features such as electrical conductivity and corrosion resistance. But they significantly impact part identification.
When choosing an industrial marking technology, it is essential to consider these treatments, as they can affect the marking process and the durability of the marks. For instance, some markings may not withstand high-temperature post-treatments, while others may require specific surface conditions.
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