Nanosecond, picosecond, femtosecond are time units, 1 second = 103 milliseconds = 106 microseconds = 109 nanoseconds = 1012 picoseconds = 1015 femtoseconds, picosecond laser cutting machine, nanosecond laser cutting machine refers to picosecond laser The single pulse time refers to the pulse width of the laser. The laser treatment method is to use a high-energy laser beam to focus the surface of the material to produce a physical or chemical reaction to form a cut. It is essentially a heat treatment method, but due to the short working time and the small heat affected area, the treatment effect and speed can be guaranteed.
In today’s mainstream market, our common laser processing tool is a nanosecond laser. With the requirements of industrial technology, the thermal influence range has expanded. Since the market does not accept derivative effects, new laser processing tools to meet market needs are also A technological breakthrough in the laser industry, we call it a micro-precision ultra-fast laser processing system, commonly referred to as a leather second laser cutting machine or a femtosecond laser cutting machine.
The pulse time of the picosecond laser cutting machine is extremely short, and the single pulse time is only a few picoseconds, and its thermal influence is very small and even negligible. Compared with the processing of nanosecond laser cutting machine, there is no material recasting in the whole processing process, the processing process is clean, and the absorption of laser energy is less dependent on material or wavelength. Therefore, in the field of micro-precision laser processing, picosecond laser cutting machines and femtosecond laser cutting machines provide a broad space for development, and their processing characteristics are destined to play an important role in the future.
What is the difference between picosecond, femtosecond and nanosecond laser cutting applications?
Picosecond laser cutting machine has better processing effect and processing speed than nanosecond laser. In the field of market applications, picosecond lasers also have wider space, such as solar cell laser etching (narrow line width), OLED laser cutting (small edge), brittle material laser punching (faster), etc., mainly in the heat affected area. influences. Below we can visually see the difference between ultrafast picosecond lasers and nanosecond lasers. In the figure, we found the heat affected zone of the material and the heat effect in nanoseconds, and the ultrafast picosecond laser cutter can almost ignore the heat effect, so the processing effect is more ideal. At the same time, the working time is short, the precision is high, and the processing speed is fast.
The pulse time of the picosecond laser cutting machine is short, and the action time of a single pulse is only a few picoseconds, so the thermal effect is very small and even negligible. Compared with nanosecond laser cutting machines, the entire processing process does not require material recasting and cleaning processes, and the absorption of laser energy is less dependent on the material or wavelength. Therefore, in the field of micro-precision laser processing, picosecond laser cutting machines and femtosecond laser cutting machines provide a broad game space, and their processing characteristics are destined to play an important role in the future.
Compared with nanosecond laser, picosecond laser not only has good processing effect and processing speed, but also has the advantages of solar cell laser etching (narrow line), OLED laser cutting (small), brittle material laser in the market application field. Punching (fast and other large space map, we found that the material is in the heat-affected zone and thermal effect, the thermal effect of ultra-fast picosecond laser cutting is almost negligible, and the processing effect is more ideal. At the same time, the working time is short, the precision is high, and the processing speed is fast.
Although nanosecond laser cutting machines are still the main cutting machines in the market, with the rapid development of precision cutting technology, the requirements for laser cutting equipment are getting higher and higher, and micro-precision laser processing equipment will penetrate into all walks of life.
Due to the characteristics of low heat, cold melting and high precision, the ultra-fast picosecond laser cutting machine has extraordinary performance in stainless steel, aluminum, titanium alloy, sapphire, ceramics, glass and other materials, and is widely used in scientific research, biological instruments, solar photovoltaic , electronic product manufacturing, semiconductor manufacturing and other fields.
Of course, the mainstream laser processing market in the market is still dominated by nanosecond lasers. Due to the high cost of picosecond ultrafast laser cutting machines, the future trend will inevitably develop to the field of picoseconds and femtoseconds, which can be expected in the future.