Femtosecond laser processing technology is a high-precision and high-efficiency processing technology, which uses the instantaneous pulse of femtosecond laser to act on the surface of the material to realise microfabrication of the material. The diaphragm micro-aperture femtosecond laser processing equipment is a kind of equipment specially used for femtosecond laser processing, which has the advantages of high precision, high stability and high efficiency, and is widely used in the fields of micromachining, microprocessing and biomedicine.
First, the working principle of the diaphragm micro-aperture femtosecond laser processing equipment
The diaphragm micro-aperture femtosecond laser processing equipment is composed of laser, optical system, control system and other parts. The femtosecond laser generated by the laser is focused on the surface of the workpiece through the optical system to form a micron-sized focal point, and then the movement of the laser and the processing parameters are controlled by the control system to achieve microfabrication of the material.
Femtosecond laser is a special kind of laser whose pulse width is at the femtosecond level, which is able to focus the energy into the micron-sized area in a very short time, thus realising the microfabrication of materials. Applanation micro-aperture femtosecond laser processing equipment using femtosecond laser of this characteristic, can achieve the micro-fine processing of various materials, including metal, ceramics, glass and other materials.
Second, diaphragm micro-aperture femtosecond laser processing equipment features
1. high precision: diaphragm micro-aperture femtosecond laser processing equipment using femtosecond laser technology, can achieve micron-level processing accuracy, suitable for the processing of micro-fine structure.
2. high efficiency: diaphragm micro-aperture femtosecond laser processing equipment has a high processing speed and high processing efficiency, can realise the rapid processing of large-area materials.
3. high stability: the diaphragm micro-aperture femtosecond laser processing equipment using advanced optical system and control system, with high stability and high reliability, to ensure the processing quality and stability.
4. Versatility: the applanation micro-aperture femtosecond laser processing equipment can achieve a variety of shapes and structures, including micron-level hole processing, micron-level pattern processing and so on.
5. Environmental protection and energy saving: the applanation micro-aperture femtosecond laser processing equipment adopts non-contact processing, does not produce waste gas, waste water and other pollutants, in line with environmental requirements.
Third, the appendix microporous femtosecond laser processing equipment application areas
The diaphragm micro-aperture femtosecond laser processing equipment is widely used in micromachining, micro-processing, biomedical and other fields, including:
1. micron-level hole processing: diaphragm micro-aperture femtosecond laser processing equipment can achieve micron-level hole processing, applicable to microelectronic devices, micro-mechanical devices and other fields.
2. micron-level pattern processing: diaphragm micro-aperture femtosecond laser processing equipment can achieve micron-level pattern processing, applicable to microelectronic devices, micro-optical devices and other fields.
3. biomedical device processing: diaphragm micro-aperture femtosecond laser processing equipment can achieve micron-level biomedical device processing, including micron-level implantable devices, micron-level medical devices and so on.
4. Precision parts processing: applanation micro-aperture femtosecond laser processing equipment can achieve micro-fine processing of precision parts, including micron-level parts processing, micron-level surface treatment.
In short, the diaphragm micro-aperture femtosecond laser processing equipment is a kind of high-precision, high-efficiency processing equipment, has a wide range of application prospects and market potential, will play an important role in the field of micro-processing, micro-processing, biomedicine and so on.