Hmds wet magnetic drum separator is widely used in coal mine processing. With the development and expansion of heavy media processing technique, drum separator for heavy media processing is widely used in coal-washing plant. The structure of coal mine used drum separator has never had big change, while with the application of new magnetic material, magnet developed from simplex ferrite, mixed magnet to rare earth super strength magnet. Magnetic intensity was raised greatly, improving the recovery percent and lowering media consuming effectively. Features: 1. Important role in coal mine recycling 2. High minmal permanent magnet 3.Keep magnetism for long time 4.Duble stainess steel structure of the pullyer 5.High recycling rate Heavy media content rcycling rate 87-130kg/m3 >99.7% 130-260kg/m3 >99.8% >260kg/m3 >99.9%
Eddy current separator is mainly used to recycle copper, aluminum and other non-ferrous metals from industrial waste and solid waste. It is widely used in environmental protection industries, like waste classification, waste electrical and electronic equipments recycle, and the treatment of non-ferrous metal industrial materials. The separation efficiency is good for a wide range of non-ferrous metals, which features strong adaptability, and reliable mechanical structure, high efficiency in separation. Standard features and benefits : 1. Ndfeb permanent magnet , powerful magnetic field. 2. Reasonanle structure, convenient installation, easy operation and maintenace. 3. Import main parts to insure stable and reliable performance: nord gear motor, nsk bearing, seigling belt, schneider electric parts. 4. Safety protective facilities.
Ejet magnetic equipment magnetic pulleys would supply you more magnets of what you want for greater attracting power and holding power, keeping harmful, dangerous ferrous particles out of your processing system or redeem valuable ferrites from other substances. Application: Waste recovery Mining Recycling applications Cement Coal handling plant Refractory Minerals
We have strong sintered AlNiCo permanent magnet production scale, can produce the performance of Alnico2-8 grades. And annual output nearly 800 tons. AlNiCo magnet is suitable for producing complex, light, thin, and small products, and is widely used in instrumentation, communications, magnetoelectric switches, and various sensors. AlNiCo products are mainly used in automotive parts, instrumentation, electroacoustics, motors, nuclear power, teaching, aerospace and other fields. It has the characteristics of low temperature coefficient, high temperature resistance, humidity resistance, not easy to oxidize and good working stability.
Description : The most powerful magnets commercially available Manufactured by a powder metallurgical process involving the sintering of powder compacts under vacuum Grinding and slicing possible Very reactive with moisture and oxygen A variety of Coatings can applied depending on the environment of the application Applications : various types of electric motors, engineering equipment, medical equipment, audio apparatus and household appliances
Description : Plastic-bonded magnets are particle composites with permanent-magnet powder embedded in a plastic binder. Hard ferrite (HF), various SmCo and NdFeB powders and, to a very little extent, AINiCo alloys are used as magnetic powder. For embedding the magnetic particles, thermoplastic binders as, for instance, polyamide (PA) or polyphenyl sulfide (PPS) and duroplasts like epoxy resins are used. Depending on the material composition and production process, isotropic and anisotropic magnets with differing magnetic and mechanical specifications are available. Since not only the type of magnet or plastic material, but the filling and alignment degree, too, determine the composite`s properties, the outcome is widely varying magnetic parameters and an outstanding variety in types and shapes.
Halbach array is a special arrangement of permanent magnets that augments the magnetic field on one side of the array while cancelling the field to near zero on the other side.[1] This is achieved by having a spatially rotating pattern of magnetisation. The rotating pattern of permanent magnets (on the front face; on the left, up, right, down) can be continued indefinitely and have the same effect. The effect of this arrangement is roughly similar to many horseshoe magnets placed adjacent to each other, with similar poles touching.