Design And Development Of Highly Efficient Modular Magnesium Alloy Scraps Recycling Induction Melting Furnace

Since the1990s, the international development trend of the main metal, metal magnesium has maintained a rapid growth more than the increasement of20%per year. The recycling of Magnesium has great development potential. In recent years the international market has formed Magnesium alloy processing and demand of market application, with great capacity, the market characteristics of multiple levels and application of magnesium alloy, which depends on the production of magnesium metal. Although China has become one of the world magnesium industry and the important component of the magnesium market, the development of the product research, consumption fall behind Europe, America Japan and other developed countries. Currently the domestic and many foreign countries pay attention to magnesium recycling, many other foreign countries have been devoted to the development in the technology of magnesium recycling. Learn from foreign advanced technology, the recycling equipment and the technique of magnesium has developed significantly.The aim of the work is to develop efficient modular recycling induction furnace of magnesium alloy scraps in response to the market demand. It adopts high density of intermediate frequency induction power and magnetic of the induction furnace’s whole device, using wire sensors and crucible air-cooled technology, and making induction furnace and crucible fission separate, modular combinations, easy installation and maintenance, facilitate batch production. In the conclusion of the predecessors’experience and on the basis of existing research results, the design and research are as follows:1. Developing, design and manufactured induction melting furnace of40kg recycling magnesium alloy scraps and aluminum alloy scraps.2. Choosing fan through thermal calculation of induction melting furnace and checking the using temperature of the wire.3. Adopting A356aluminum alloy as simulation medium for qualitative and quantitative experiment of the induction melting furnace, explored to improve efficiency and reduce consumption of induction melting furnace, so as to shorten the time of melting.4. Based on experimental experience, improving discharge device, re-designed single-screw pump.