Most manufacturers recognize laser marking for its precision on metals — but that’s only part of the story.
Modern industrial production uses a wide range of advanced materials, and MAC LASER systems are designed to adapt to them with accuracy and consistency.
Here’s a fresh look at several non-metal materials that respond exceptionally well to laser marking, each requiring its own marking strategy:
Carbon-Based Materials
With excellent stability and a high resistance to heat, carbon composites demand tightly controlled laser energy.
MAC LASER systems create highly durable identification codes that remain readable even after long-term use in aerospace and engineering applications.
Glass Surfaces
Glass is sensitive to temperature and pressure, but cold laser marking enables micro-engraving without cracking or chipping.
This makes it ideal for branding cosmetic bottles, serializing optical parts, or adding decorative patterns.
High-Performance Plastics
From automotive components to electronic housings, engineered plastics require precise, low-distortion marking.
Our systems achieve fine detail while maintaining the integrity and function of the part.
Silicone Products
Soft and flexible materials often challenge traditional marking methods.
Laser technology, when tuned correctly, provides sharp, high-contrast marks without deforming the surface.
Ceramics
Hard, brittle, and widely used in demanding environments, ceramics respond well to laser energy.
The result is a permanent, wear-resistant mark suitable for medical, industrial, and high-temperature applications.
Coated and Painted Surfaces
Layers of coatings behave differently under laser exposure.
MAC LASER equipment can remove the top layer or induce color change, producing clear and consistent results without damaging the underlying structure.
A More Capable Marking System for Modern Manufacturing
Whether the application involves fragile glass, flexible silicone, or heat-resistant carbon, MAC LASER provides marking solutions that adapt to material behavior rather than forcing the material to adapt to the process.
