Laser etching is a non-contact process that utilises a focused beam of laser light to selectively modify a material’s surface by melting or vaporising it. Unlike traditional engraving or chemical etching, laser etching achieves high precision without physical wear, mess, or contamination.

Key Characteristics:

• High-resolution surface modification
• Minimal material loss or distortion
• Works with metals, plastics, ceramics, and more

Ideal for functional marking, decorative finishes, and branding

Core Components

• Laser Source (Nano, Pico, or Femto): Defines wavelength and power, enabling etching on metals, plastics, and glass.
• Precision Galvo Motion System: Delivers ultra-fast and accurate beam steering.
• Advanced Optics & Lenses: Maintains consistent focus for uniform etching quality.
• Computerised Controller Interface: Supports CAD file import, workflow automation, and parameter optimisation.
• Cooling Mechanism (Air or Water-Cooled): Ensures stable performance in continuous operations.
• Enclosed Work Area with Safety Interlocks: Guarantees operator safety and fume containment.
• Exhaust & Filtration Unit: Removes particulates and vapours for a clean, compliant workspace.
• Rotary Axis (Optional): Enables precise etching on cylindrical components such as pipes, bottles, and rings.

Why It Delivers More

Superior Marking Precision

• Achieves micron-level accuracy for logos, serial numbers, barcodes, and intricate textures.
• Supports high-resolution decorative and identification requirements.
• Ideal for industries requiring exact traceability and branding.

Broad Material Compatibility

• Etches stainless steel, aluminium, copper, and brass.
• Works seamlessly with plastics and polymers (ABS, PET, polycarbonate).
• Suitable for ceramics and precious metals (gold, silver).
• One machine adapts to multiple industrial and creative applications.

Fast and Contact-Free

• Non-contact process eliminates tool wear and reduces maintenance costs.
• High-speed batch processing with minimal setup and changeover.
• Delivers efficiency for both small-scale and high-volume production.

Environmentally Friendly

• Clean, dry process without chemicals, acids, or solvents.
• Low energy consumption reduces carbon footprint.
• Safe, sustainable alternative to traditional etching methods.

Enhanced Durability

• Etched markings resist wear, heat, and harsh chemicals.
• Ensures permanent product identification and compliance.
• Supports long-lasting quality in demanding industrial environments.

Electronics and Semiconductors

• PCB Trace Code Etching
• Microchip Labeling
• Heat Sink Surface Patterning
• Wafer Marking

Automotive and Aerospace

• VIN and Engine Part Marking
• Anti-Counterfeit Identifiers
• Lightweight Surface Texturing
• Bonding Surface Preparation

Medical and Surgical Equipment

• UID/UDI Compliance Engraving
• Calibration Marks on Surgical Tools
• Lot Tracking on Implants
• Sterile Surface Marking

Jewellery and Luxury Goods

• Intricate Patterns on Gold, Silver, and Platinum
• Custom Message Engraving
• Decorative Textures on Watches and Accessories
• Brand Authentication Marks

Mechanical Seals and Tooling

• Component Identification
• Tolerance and Alignment Indicators
• Laser Etching on Sealing Surfaces
• Tool Lifecycle Management
  

India’s Official Distributor for ACSYS Lasertechnik GmbH At United Spectrum Instruments, we bring the latest laser technologies from ACSYS Lasertechnik GmbH (Germany) — a globally recognised leader in laser-based processing systems. With our laser expertise, Indian industries, research centres, and design professionals gain a best-in-class solution for surface marking, deep engraving, and material etching.

Our Key Advantages:

• Industry Expertise: Decades of combined experience in laser integration and industrial automation
• Precision German Engineering: Robust systems built to last, with exceptional accuracy
• Local Support: On-site installation, training, and ongoing technical assistance across India
• Customisation Capability: Tailored systems based on your specific material, volume, and design requirements