Liuyang Xinkang Advanced Materials is affiliated to Changsha Xinkang Advanced Materials. Liuyang Xinkang AdvancedMaterials (hereinafter referred to as LXAM) focuses on rare earth metals, rare earth alloys, rare earth oxides and rare earth compounds related metal materials. LXAM's purpose is to provide customers with competitive prices, high-quality products, services and support.
We will continue to improve our production capacity, R&D capabilities, and close cooperation with customers. LXAM also has its own technical team to provide solutions to technical problems encountered in the future. We not only provide qualified products, but also provide satisfactory designs, solutions, best services and timely delivery. We believe you will find LXAM a supplier you can trust.
We are a fast-growing materials company. We need your attention and support and look forward to your participation. We hope that through our continuous efforts, we firmly believe that LXAM will become better.
The REE are essential raw materials for a wide range of applications, including metallurgy (metal refining and metal alloying), catalysts in the automotive and the petro-chemical industry, colouring of glass/ceramics, phosphors (LEDs, compact fluorescent lamps, flat panel displays), lasers, rechargeable solid state batteries (Ni-MH), fibre optics and others. Additionally, REE are vital elements in emerging technologies such as solid state fuel cells, superconductors, magnetic cooling, hydrogen storage and high performance permanent magnets. The latter are crucial in a variety of high-tech applications ranging from wind-turbines and hybrid cars to HD drives and cell phone speakers and microphones.
"Magnets that employ REEs are rapidly growing in application. Neodymium-iron-boron magnets are the strongest magnets known, useful when space and weight are limiting factors. Rare-earth magnets are used in computer hard disks and CD–ROM and DVD disk drives. The spindle of a disk drive attains high stability in its spinning motion when driven by a rare-earth magnet. These magnets are also used in a variety of conventional automotive subsystems, such as power steering, electric windows, power seats, and audio speakers."
"Specific REEs are used individually or in combination to make phosphors—substances that emit luminescence—for many types of ray tubes and flat panel displays, in screens that range in size from smart phone displays to stadium scoreboards. Some REEs are used in fluorescent and LED lighting. Yttrium, europium, and terbium phosphors are the red-green-blue phosphors used in many light bulbs, panels, and televisions. The glass industry is the largest consumer of REE raw materials, using them for glass polishing and as additives that provide color and special optical properties."
"Nickel-metal hydride batteries are built with la-based alloys as anodes. These battery types, when used in hybrid electric cars, contain significant amounts of la, requiring as much as 10 to 15 kilograms per electric vehicle.Cerium, la, neodymium, and praseodymium, commonly in the form of a mixed oxide known as mischmetal, are used in steel making to remove impurities and in the production of special alloys.la-based catalysts are used to refine petroleum. Cerium-based catalysts are used in automotive catalytic converters."
The Japanese call them “the seeds of technology.” The US Department of Energy calls them “technology metals.” They make possible the high tech world we live in today – everything from the miniaturization of electronics, to the enabling of green energy and medical technologies, to supporting a myriad of essential telecommunications and defense systems. They are the elements that have become irreplaceable to our world of technology owing to their unique magnetic, phosphorescent, and catalytic properties.
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