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Solid white light-emitting diodes (LED lighting) will become the new generation of energy-saving light sources in the 21st century. One of the important ways to achieve white light emission is to use the fluorescence conversion technology of rare earth luminescent materials. Since 2014, China has announced a number of policies and measures in the rare earth industry to promote the rapid development of the rare earth industry. As the WTO ruled that China's rare earth case was lost, new rare earth control measures are under development. The potential of rare earth luminescent materials in the LED industry is becoming more and more obvious. Luminescent properties of rare earth luminescent materials Rare earth luminescence is produced by the hopping of rare earth 4f electrons between different energy levels. Depending on the excitation mode, luminescence can be distinguished into photoluminescence, cathodoluminescence, electroluminescence, radioactive luminescence, and X-ray. Luminescence, triboluminescence, chemiluminescence, and bioluminescence. Rare earth luminescence has strong absorption capacity, high conversion efficiency, and can emit spectrum from ultraviolet to infrared light, especially in the visible region OFweek semiconductor lighting network has a strong emission capability. Rare earth luminescent materials have been widely used in display imaging, new light sources, X-ray illuminating screens and other aspects. The rare earth luminescent material has a narrow spectral band, high color purity, bright color, strong light absorption capability, high conversion efficiency, wide emission wavelength distribution region, and fluorescence lifetime from nanoseconds to milliseconds, reaching 6 orders of magnitude; stable physical and chemical properties. High temperature resistant, able to withstand high power electron beam, high energy radiation and strong ultraviolet light. It is these excellent properties that make rare earth compounds the main research object for the exploration of high-tech materials. And with the deepening of modern scientific research. Research on rare earth luminescent materials has begun to trend toward nanocrystallization. Nanocrystallization of rare earth luminescent materials will undoubtedly give them some new properties of nanoparticles based on the above original characteristics, such as quantum size effect, small size effect, surface effect and macroscopic. Tunneling and so on. It can be seen that nanocrystallization of rare earth luminescent materials will inject new vitality into scientific research in this area, which will be more conducive to the discovery of new luminescent materials and new luminescent properties. The application status of rare earth luminescent materials in the LED industry is precisely because rare earth luminescent materials have the advantages that ordinary luminescent materials cannot be replaced, so it is widely used in electric light source illumination, television chromogenic materials, agricultural conversion materials, X-ray phosphors, Luminous coatings and luminescent inks. Among them, electric light source illumination is the most important aspect of its application, and the production of phosphor powder for lamps is the first among all phosphors. At present, the application ratio of global incandescent lamps, halogen powder fluorescent lamps and energy-saving lamps is currently about 4:3:1, and China is about 8:9:1. Energy-saving lamps are the most mature environmentally-friendly and energy-saving lighting products at present, and are currently in the field of lighting. The main applications and promotion targets for implementing energy conservation and emission reduction, accelerating the elimination of incandescent lamps, and achieving energy-saving lighting. At present, China is the world's largest producer of lighting products. In 2009, China's incandescent lamp output was 2.73 billion, and the output of fluorescent lamps was 3.5 billion. Among them, the output of energy-saving lamps was about 3 billion, accounting for more than 85 of the total output of fluorescent lamps. Therefore, in the face of huge stock market and incremental market, the elimination of incandescent lamps, the promotion of energy-saving lamps and the accelerated replacement of halogen powder lamps will drive the rapid development of China's energy-saving lamp production industry. The current output of rare earth luminescent materials is reduced, but the technology has been greatly improved. In 2009, China's energy-saving fluorescent lamps (hereinafter referred to as energy-saving lamps OFweek semiconductor lighting network) sold 6,160 tons of rare earth luminescent materials, accounting for 74.13 of the total sales volume of rare earth luminescent materials industry. From 2010 to 2013, the application of rare earths in China's luminescent materials dropped from 5,000 tons to 2,600 tons, accounting for a total consumption ratio of rare earths from 5.78 to 3.1. However, the technology of rare earth luminescent materials has been improved. In 2013, the market share of domestically produced LED powders exceeded. Imported powder, but there is still a certain gap with foreign technology. With the phasing out of the implementation of the incandescent lamp plan, LED will achieve explosive growth with a penetration rate of 20. In 2013, the output of LED lamps exceeded 810 million. Rare earth luminescent materials in the LED industry application prospects Rare earth long afterglow luminescent materials are a new type of environmentally friendly energy-saving materials that can absorb some of the energy after absorbing the energy of sunlight and light, and then slowly store the stored energy in visible light. The form is released, and the visible light can be emitted for a long time after the light source is removed, and has excellent characteristics such as high temperature resistance, friction resistance, high strength, scratch resistance, flame retardancy, high chemical stability, etc., and is ideal for energy saving, environmental protection and long life. Optical materials have important value in the fields of construction, transportation and national defense. In the aspect of light conversion agricultural film, the luminescent material is used as a light conversion agent for sunlight, and is added into an agricultural plastic film to form an agricultural film, which can improve the light quality of photosynthesis and improve the utilization rate of light energy of crops, thereby promoting the precocity of crops. And increase production. In the field of lighting, solid white LEDs, which enjoy the reputation of the fourth generation of lighting sources, are attracting more and more researchers' attention with their outstanding advantages of energy saving, environmental protection and long life. LED will become a new generation of environmental protection and energy saving light source in the 21st century. It is precisely because of its irreplaceable advantages of other lighting sources, countries around the world including China, the United States, Japan and Europe have increased their research in this field, and they are competing to seize the intellectual property rights in this field. In view of the excellent performance of energy-saving lamps in terms of light efficiency and longevity, in the context of global response to climate change and energy shortage, in recent years, many countries and regions around the world have introduced plans to ban the use of incandescent lamps and promote the use of energy-saving lamps. From a global perspective, the development trend of energy-saving lamps replacing incandescent lamps is irreversible. Compared with halogen powder fluorescent lamps, energy-saving lamps (rare earth fluorescent lamps) using rare earth luminescent materials have higher luminous efficiency, better color rendering and longer service life, and energy-saving lamps can save energy on the basis of halogen powder fluorescent lamps. 50, the color rendering index increased by 15-40, and the service life increased by more than 3 times. It is understood that the existing LED lighting source uses DC power as the driving, and must be converted by AC and DC power during operation. It has large energy consumption, poor heat dissipation and high cost. Therefore, it is beneficial to develop new LED lighting products that can be directly driven by AC. The people and the major demand for the development of the LED lighting industry. In addition, at present, this series of products have passed the relevant certification in China, as well as the American Underwriters Laboratories (UL), the United States Federal Communications Commission (FCC), the European Union (CE) and the European Union Environmental Protection (RoHS) certification, and sold to the United States, Canada, Mexico, Spain, Brazil and other countries have achieved significant economic benefits. In June 2013, the research and development of the luminescent afterglow controllable rare earth LED luminescent materials developed by the Institute of Applied Chemistry of Chinese Academy of Sciences (Caiyuan) and the Sichuan Xinli Light Source Co., Ltd., and their application in semiconductor lighting, recently passed Identification of the results of the organization of the Chinese Academy of Sciences. The expert group believes that the original rare earth luminescent material effectively solves the stroboscopic problem of AC LED lighting equipment that has not been broken internationally, and has realized the leap from basic research to industrialization, reaching the international leading level and making China the world. The only country that has mastered the production of low frequency flash AC LED products through rare earth phosphors. The demand for rare earth phosphors for energy-saving lamps is increasing. There are two main reasons: First, the development of low-carbon economy has become a global hotspot in recent years. The use of energy-saving lamps can greatly reduce carbon emissions. Increased the productivity of LED energy-saving lamps; Second, because my OFweek semiconductor lighting network has strengthened the control of the export of rare earth raw materials in recent years, the production costs of foreign manufacturers have increased, and gradually withdraw from the low-profit market for rare earth luminescent materials for energy-saving lamps. In the next few years, with the implementation of the incandescent lamp elimination policy and the increasing demand for the downstream flat panel display market, the development prospects of rare earth luminescent materials in the LED lighting application market are good, and the growth potential is expanding. Summary: With the rise of energy-saving lighting, rare earth luminescent materials in the LED industry, new technologies and new products emerge one after another, the industrial application of rare earth luminescent materials has exploded, and rare earth luminescent materials have become an indispensable basic material in the production of energy-saving lighting and special light sources. . With the continuous expansion of the application field, the rare earth luminescent materials industry will have great potential in the LED lighting industry in the future.
Laser cutting is applied to metal materials such as mild steel, stainless steel, aluminum alloy, pickling plate, galvanized sheet, silicon steel plate, electrolytic plate, titanium alloy, manganese alloy. The laser cutting can process with a thickness range of 0.5-40mm Mild steel, 0.5-40mm Stainless steel, 0.5-40mm Aluminum, 0.5-8mm Copper.
Laser cutting is a sheet metal processing that laser beam radars on the processing material. Laser cutting works by directing the output of a high-power laser most commonly through optics. The laser beam can be divided into solid state and un-solid state
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