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Fiber laser marking machine in the electronics industry, precision machining
Basically, laser technology uses non-contact processing, does not produce mechanical stress, especially in line with the electronics industry processing requirements. In addition, with its high efficiency, high precision, small heat affected area, no pollution and other advantages, laser processing technology is widely used in the electronics industry.
In the consumer electronics industry, laser marking can be a first-class cutting accuracy and speed of metal or non-metallic parts and other small parts for precision cutting or micro-machining. Laser welding is a small deformation of the heat, the role of the region and the location of precise control, high welding quality, easy to achieve automation, to achieve the advantages of dissimilar materials such as welding out. The laser marking with its environmental protection, wear resistance, high precision, low cost, stable performance, the use of a wide range, easy to track and control and other characteristics applicable to a variety of thin metal / non-metallic materials marking, and in the category A wide range of electronic components branded a permanent "mark".
Precision machining needs are driving ultrafoot lasers represented by femtosecond and picosecond lasers in the industrial market to become more and more widely used. It is reported that by 2020, ultra-fast pulse laser market size is expected to more than 1.5 billion US dollars. Megawatt peak power, picosecond and femtosecond pulse width of the ultra-fast lasers in the 3C industry (including computers, communications and consumer electronics products such as smart phones, tablet PC devices) and other processing areas will be rapid development.
For example, mobile phones, microprocessors, monitors, memory chips and other sophisticated and sophisticated consumer electronics products and components are composed of a large number of different shaped, micro-materials, especially the need for high-precision processing technology support. In this case, ultra-fast laser technology will be in its fine processing, beam control and beam transmission technology and other aspects of the advantages of favor. This technology has also become the key to the future success of manufacturing more complex consumer electronics devices.
In the consumer electronics industry, laser marking can be a first-class cutting accuracy and speed of metal or non-metallic parts and other small parts for precision cutting or micro-machining. Laser welding is a small deformation of the heat, the role of the region and the location of precise control, high welding quality, easy to achieve automation, to achieve the advantages of dissimilar materials such as welding out. The laser marking with its environmental protection, wear resistance, high precision, low cost, stable performance, the use of a wide range, easy to track and control and other characteristics applicable to a variety of thin metal / non-metallic materials marking, and in the category A wide range of electronic components branded a permanent "mark".
Precision machining needs are driving ultrafoot lasers represented by femtosecond and picosecond lasers in the industrial market to become more and more widely used. It is reported that by 2020, ultra-fast pulse laser market size is expected to more than 1.5 billion US dollars. Megawatt peak power, picosecond and femtosecond pulse width of the ultra-fast lasers in the 3C industry (including computers, communications and consumer electronics products such as smart phones, tablet PC devices) and other processing areas will be rapid development.
For example, mobile phones, microprocessors, monitors, memory chips and other sophisticated and sophisticated consumer electronics products and components are composed of a large number of different shaped, micro-materials, especially the need for high-precision processing technology support. In this case, ultra-fast laser technology will be in its fine processing, beam control and beam transmission technology and other aspects of the advantages of favor. This technology has also become the key to the future success of manufacturing more complex consumer electronics devices.