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Desktop marker come in a wide variety and can be classified based on their core technology. The technology used determines which materials can be processed and the marking effect achieved.
Suitable for metals and certain plastics
Features: Long lifespan, maintenance-free, high marking speed
UV Laser Marking Machine
Suitable for plastics, glass, silicon wafers, and other heat-sensitive materials
Features: Cold processing, high precision, no thermal damage
CO₂ Laser Marking Machine
Suitable for non-metallic materials such as wood, glass, leather, and paper
Features: Clear marking effect, ideal for packaging and handicraft industries
Mainly used for precision marking on electronic components, ceramics, and other high-precision applications
Features: Excellent beam quality, suitable for high-end applications
Diode Laser Marking Machine
Suitable for some metals and plastics
Features: Cost-effective, low energy consumption
Suitable for various surfaces such as cartons, plastic bottles, food packaging bags, and even eggs
Features: Non-contact, high speed, capable of printing in multiple colors (commonly black)
When selecting a desktop marker, identifying the primary marking material is the first and most important consideration.