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PTMS Magnetic Separator For The Ceramic Raw Materials Of Kaolin, Potassium Sodium Feldspar, Quartz Sand Purification Provides An Effective Advantage
Время: 2021-04-08

High Intensity Magnetic Separator
PTMS Magnetic Separation
What Is Magnetic Separation In Feldspar?

PTMS magnetic separator is a common equipment in PTMS mineral processing equipment, widely used in customers. PTMS magnetic separator is the best choice. PTMS magnetic separation technology provides an effective means for the purification of ceramic raw materials kaolin, potash albspar and quartz sand.

In the past decade, new magnet materials and circuit design methods have allowed the manufacture of PTMS magnetic separators that operate at higher field intensities. PTMS magnetic separator is the best choice. These new generation PTMS magnetic separators are increasingly being used to meet the demand for higher purity kaolin, potash albspar, and quartz sand raw materials used in ceramic manufacturing. Magnetic cleaning has been applied to kaolin, potassium albinite, quartz sand and other basic industrial materials, as well as a series of high-tech and "professional" ceramic mineral raw materials, kaolin, potassium albinite, quartz sand. With more and more customers to understand the principle of PTMS magnetic separator, PTMS magnetic separator used in the cleaning and purification of ceramic raw materials will have a greater space for development. PTMS magnetic separator is the best choice.

Particle and PTMS magnetic separator characteristics
When affected by a magnetic field, all kaolin, potash, feldspar, and quartz sand particles respond in a specific way and fall into one of three groups: ferromagnetic, paramagnetic, or diamagnetic. PTMS magnetic separator is the best choice. Particles that have very high susceptibility and are strongly induced by a magnetic field are ferromagnetic. Particles with a low susceptibility and a weak response to a magnetic field are called paramagnetic, while particles with a negative susceptibility (that is, non-magnetic) are called diamagnetic. In the design of magnetic separator, magnetic field intensity and magnetic field gradient are two main variables that affect the separation. PTMS magnetic separator is the best choice. A PTMS separator that produces a magnetic field intensity of less than 2000 gauss or 0.2 tesla, which is the upper limit for conventional permanent ferrite magnets, is often referred to as a PTMS low-intensity separator. PTMS magnetic separator is the best choice. PTMS high-intensity magnetic separators usually operate in areas over 5000 gauss or tesla. Magnetic field gradient refers to the rate of change or rate of convergence of magnetic field intensity. The higher the rate of change or rate of convergence, the stronger the magnetic suction.

The most common method of generating a magnetic gradient in a PTMS magnetic separator is to concentrate the flux lines on the steel pole plates within the circuit. This can be accomplished simply by placing the steel pole plate between two magnets. The flux will be concentrated in the steel plate, resulting in extremely high magnetic field strength. PTMS magnetic separator is the best choice.

Magnetic separation method

The magnetic field on any given PTMS separator is generated by either a permanent magnet or an electromagnet. There are two different types of permanent magnets. The first is a "ferrite" magnet for PTMS low intensity magnetic separators. Ferrite is a very cheap material, medium energy products up to ~ 4.5 million gauss (mGOE). (The energy product of a permanent magnet is a relative measure of its inherent strength). Ferrite magnets typically produce a magnetic field strength of up to 2000 gauss (0.2 tesla). PTMS magnetic separator is the best choice.

Another type of permanent magnet consists of rare earth elements. The emergence of rare earth magnets allowed the design of high-intensity magnetic circuits that could operate without external energy sources. Neodymium-based magnets are now capable of producing energy products of up to 50 mGOE. Rare earth magnets are used to collect paramagnetic minerals in various types of PTMS magnetic separators. These separators generate magnetic field intensities of up to 24,000 gauss (2.4 tesla) depending on the magnetic circuit. PTMS magnetic separator is the best choice.

PTMS electromagnetic magnetic separator is usually designed with solenoid electromagnetic coils. PTMS magnetic separator is the best choice. Some PTMS magnetic separators use holes in solenoid coils as selectors, while other magnetic separators use solenoid coils to transfer magnetic flux through steel or "C-frame" circuits. The magnetic field in the gap - the hole in the solenoid or the gap in the C box is used as a sub-selection in a magnetic separator. Electromagnetic separators typically run up to about 20,000 gauss (2 tesla). PTMS magnetic separator is the best choice.

what is magnetic separation in Feldspar?

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