CO₂ Composite Spray Technology for Laser Processing Dual-Mode Contamination Control and Surface Quality Enhancement
This is Part 2 of a twelve (12) part series regarding CO₂ Composite Spray Technology and how it represents a transformational adjunct for laser-based manufacturing—from post-laser cleanup to integrated contamination control to real-time process optimization.
INTRODUCTION: LASER PROCESSING AND THE CONTAMINATION CHALLENGE
Overview of Laser Processing in Modern Manufacturing
Laser-based processes—including cutting, welding, drilling, surface structuring, powder-bed fusion, and micro-machining—are now foundational across transportation, aerospace, energy, medical device, electronics, and specialty manufacturing sectors.[2][5][8] These processes deliver high energy density and precision, enabling fine features, high-aspect-ratio structures, and reproducible geometry that mechanical or conventional thermal processes cannot match.
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