In industrial manufacturing, removing oxide layers from metal surfaces has always been a critical step. Traditional cleaning methods, such as chemical pickling and mechanical grinding, are not only inefficient but can also pollute the environment and damage the substrate.
With technological advancements,
Laser Cleaning technology, with its advantages of high efficiency, environmental friendliness, and precision, has gradually become the preferred solution for metal surface treatment.
The core principle of removing oxide layers from metal surfaces in
Laser Cleaning Machine lies in the absorption of a high-energy beam of a specific wavelength by rust, paint, and contaminant layers.
This forms a rapidly expanding plasma, simultaneously generating a shock wave. The shock wave breaks the contaminants into fragments, which are then removed.
Laser cleaning is a non-contact process; there is no physical contact between the laser beam and the metal surface, avoiding surface damage that may be caused by mechanical friction.
