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magnetic separator states

how does a magnetic separator work and what uses can it have? - ima

how does a magnetic separator work and what uses can it have? - ima

A magnetic separator is a device that uses a magnet to remove impurities and other magnetic materials from metal. Magnetic separators can be used before, during and after the production of a material and can be adjusted to attract different types of magnetic materials at different intensity levels.

Although its use is almost always industrial in nature, a magnetic separator is used for a wide variety of applications. Magnetic separators can be ferromagnetic or paramagnetic and can vary in size from a table version to a large, heavy drum used in recycling and other manufacturing applications.

A magnetic separator consists of a powerful magnet that is placed or suspended from a ceiling or device. Materials can be passed over a table top magnetic separator, while suspended magnetic separators often hang over a material to remove its impurities. Magnetic separators can also be cylinders through which objects pass. The material that purifies a magnetic separator can be in the form of parts, a finished product or even a liquid metal. With this, a magnetic separator is characterized by:

They are also found in scientific laboratories that constantly require metallic materials that are free of impurities (often the case of chemistry). In this case, the magnetic separator is usually a cylinder or flask that prevents cross-contamination between two different substances by forcing all or some of the magnetic materials of a substance into a separate container.

Magnetic separators are powerful, portable and can be adjusted to remove various types of magnetic materials from a liquid or solid. They are most effective when used in a liquid, although it is also possible to remove solid impurities. Magnetic separators are very versatile and incredibly simple in design. In fact, a basic magnetic separator can be built at any time, using only a powerful magnet such as neodymium magnets and a clamp to hold the material down.

The main disadvantage of a magnetic separator is that it must be constantly maintained. The magnetic separator should be washed or cleaned to remove accumulated magnetic materials, while oil should be added to moving parts. In the case of an electromagnetic separator, the electromagnets must be able to be switched off at any time in case of emergency.

For industry, the magnetic separator comes in a different range of products such as magnetic drums, which are ideal for the continuous removal of ferrous particle contamination from any bulk material in the dry state, as well as magnetic drums with housings, which provide good separation in applications where there is a high concentration of metal contamination.

In short, the magnetic separator creates a magnetic field of high intensity and very high gradient capable of attracting very weak materials such as iron oxides, weak magnetic powders and a high amount of paramagnetic, so if you are interested in knowing more about it, IMA can advise you on the magnetism solution that best suits your project. If you have questions, you can contact us.

magnetic mechanical separator

magnetic mechanical separator

Over a considerable period of time great interest has been shown in selective dry concentration of fine ferromagnetic particles, although it is only recently that new permanent magnetic materials have been made available to permit building of such permanent magnetic separators.

It is well known that the conventional drum separator does not efficiently separate fine materials. The centrifugal force on any drum acts in accordance with the particle size and gravity, which may be at varying magnitude opposite to the magnetic force, especially when the material is not closely sized.

The Magnetic-Mechanical Separator (MMS) is designed for the concentration of fine, unsized magnetic materials where the percentage composition of magnetics to nonmagnetics, or the nature and texture of the materials, is such that its unique agitation and shake-out action with no centrifugal force provides greater efficiency than is obtainable by conventional magnetic separation equipment.

This machine consists of a complete double belt conveyor unit with a premagnetizing Axial Pole Agitating Pulley at the feeding end of the lower conveyor belt and a special agitating concentrator magnet above the lower belt of the upper conveyor.

As the material passes under the magnetic concentrator conveyor, the nonmagnetic particles continue on their way on the lower belt to be discharged from the lower conveyor into a nonmagnetic material discharge hopper. The magnetic particles, however, together with any adhering or entrapped nonmagnetics, are attracted to the upper belt by the magnetic concentrator.

how many types of magnetic separators? - jxsc machine

how many types of magnetic separators? - jxsc machine

Magnetic separation is an effective mineral processing method to separate the minerals based on the magnetism difference. Magnetic separator machine can effectively select a large number of magnetic minerals, such as magnetite, hematite, limonite, manganese siderite, wolframite, ilmenite, manganese ore, manganese carbonate, metallurgical manganese ore, iron ore, kaolin, manganese oxide ore, rare earth ore.

Wet type? Fine particle and coarse particle? Strong magnetic? . . How many kinds of magnetic separators equipment? Frankly, there are many classification methods of magnetic separator types, join us to solve the puzzle.

According to the state of the material, the magnetic separator is divided into dry type magnetic separator and wet type magnetic separator. Dry magnetic separator refers to the material keep dry, dont need to mix with water in the magnetic separation process. The material for wet magnetic separator must be mixed with water or other media.

The dry magnetic separator generally does not need a tank for accommodating the slurry, and the material is conveyed by a vibrating feeding device, and a dustproof device is often provided. The wet magnetic separator has a tank to accommodate the slurry to maintain the fluidity of the material, and the pump is usually transported by a slurry pump.

Dry magnetic separation function for bulk, coarse particle separation, but also fine mineral separation, while wet magnetic separator can not sort large bulk minerals, most are effective for fine or even fine particles, except for a few models that can select coarse particle. HGMS (high gradient wet magnetic separator) can sort micron-sized materials using a suitable magnetically permeable medium.

Dry magnetic separator requires low water content, dry materials, good liquidity, do not adhesion, agglomeration. The wet magnetic separation operation has certain requirements on the slurry concentration. There is no obvious limit on the concentration of coarse magnetic separation, but the material concentration should not be too low to effectively control the negative fluid force during the mineral processing operation. When magnetically selecting fine particles, the concentration is required to be high to ensure the recovery of magnetic minerals.

Dry weak magnetic separators have features like a simple process, low investment, low water consumer. However, the bottleneck of the dry cylinder magnetic separator is that the dust is difficult to control, so as the environmental protection requirements become stricter, the dry type magnetic separation is gradually replaced by the wet weak magnetic separator. At present, the fine-grained dry magnetic separation machine is only used in the water shortage area and severe cold area.

According to the magnetic field strength, magnetic separator is divided into three types: weak magnetic separator (low intensity magnetic separator), medium magnetic separator and strong magnetic separator (high intensity magnetic separator). The weak magnetic separator is from several hundred to 3000 Gs; the strong magnetic separator generally refers to 3000Gs to 6000 Gs, and the medium magnetic field magnetic separator between the two.

The reason why it is classified according to the strength of the magnetic field is related to the magnetic properties of various common minerals (another post Magnetic Mineral Classification). However, it is necessary to know that there is no absolute standard for different magnetic strength and their matched equipment.

In the actual magnetic separation machine, the magnetic field strength ranges from hundreds of Gauss to 20,000 Gauss, some even exceed 20,000 Gauss, but it is rarely used in general beneficiation production. Excessive magnetic field strength will lead to weak magnetic minerals to agglomerate that is not conducive to beneficiation. So the upper limit of the magnetic field strength of the strong magnetic separator is 20000Gs.

On the working surface of various magnetic separators, the magnetic field strength varies at different points and in different ranges, and the working magnetic field is a non-uniform magnetic field. Generally, the value of the magnetic field strength expressed refers to Max. magnetic strength, some factories may list the average value.

According to the type of magnetic field, the magnetic separator is divided into permanent magnet magnetic separator and electromagnetic magnetic separator. The permanent magnet magnetic separator uses a permanent magnet material such as ferrite or neodymium iron boron to generate a working magnetic field, and the electromagnetic magnetic separator uses a magnet with a yoke, a solenoid, and a magnet to generate a magnetic field.

The magnetic field strength of the permanent magnet magnetic separator is fixed, but the different action areas in the magnetic separation working surface can be designed to have different magnetic field strengths. The electromagnetic magnetic separator can adjust the whole magnetic field, but the magnetic field strength values in the working surface are a balanced, uniform magnetic field.

The magnetic energy of the permanent magnet magnetic separator is low, while the electromagnetic separation requires high energy consumption to generate the excitation current. The energy consumption per unit of the permanent magnetic separator is much lower than that of the electromagnetic magnetic separator.

According to the structure of the main working part of the magnetic separator, it is divided into cylindrical (drum) magnetic separator, roller magnetic separator, disc magnetic separator, ring magnetic separator, in addition, have rotor magnetic separator, belt magnetic separation, conical magnetic separator, but these types of magnetic separators have been used less.

According to the way the magnetic field strength changes: 1) Constant magnetic field magnetic separator. Using a permanent magnet material and a direct current electromagnet, a solenoid, or the like as a magnetic source, the magnitude and direction of the magnetic field strength do not change with time. 2) Alternating magnetic field magnetic separator. An electromagnet that is connected to an alternating current is used as a magnetic source. The magnitude and direction of the magnetic field strength changes over time. 3) Pulsating magnetic field magnetic separator. An electromagnet that simultaneously transmits direct current and alternating current is used as a magnetic source. The magnitude of the magnetic field varies with time, but the direction does not change. And pulse Similar to the dynamic magnetic separator, the use of pulsating water flow causes the slurry to pulsate, affecting the sorting force of the magnetically selected mineral. 4) Rotating magnetic field magnetic separator. A magnet is used as the magnetic source, and the magnetic pole rotates around the axis. The magnitude and direction of the magnetic field strength changes over time.

According to whether the magnetic mineral is reversed in the magnetic field of the magnetic separator, it is divided into a mineral reversal magnetic separator and Nonreversal magnetic separator. The mineral reversal magnetic separator can effectively improve the concentrate grade, and the Non-reversal magnetic separator can select the refractory weak magnetic minerals.

According to the minerals, it also can divide into such as magnetite magnetic separator, hematite magnetic separator, manganese ore magnetic separator, quartz sand magnetic separator, NdFeB magnet, nickel, etc.

In addition to the types listed above, there are many ways to classify magnetic separators. Although each manufacturer has a self-classification method, it lacks standards. In the magnetic separator model selection stage, most prefer using mixed name, such as the hematite wet magnetic separator, actually indicate that the sorting mineral is hematite, and the ore dressing method is wet type, but does not show us whether the magnetic separator is a permanent magnet type or an electromagnetic type, and neither indicate which magnetic separation structure the equipment is.

JXSC, 35 years Chinese magnetic separators manufacturer, provides laboratory use small machine, and industry use effective magnetic separators, widely used in the mining industry around the world (Successful cases in UK, South Africa, South Korea, Uganda, Pakistan, Zambia, Tanzania, India, Thailand and so on). Contact us for more details about working principle, specification, price list, dealer and oversea supplier, troubleshooting solutions, operation and installation guidance, etc.

global permanent magnetic separator market insights (2021 to 2026) - key analysis and forecasts

global permanent magnetic separator market insights (2021 to 2026) - key analysis and forecasts

DUBLIN, June 23, 2021--(BUSINESS WIRE)--The "Permanent Magnetic Separator Global Market Insights 2021, Analysis and Forecast to 2026, by Manufacturers, Regions, Technology, Application, Product Type" report has been added to ResearchAndMarkets.com's offering.

This report describes the global market size of Permanent Magnetic Separator from 2016 to 2020 and its CAGR from 2016 to 2020, and also forecasts its market size to the end of 2026 and its CAGR from 2021 to 2026.

ResearchAndMarkets.comLaura Wood, Senior Press [email protected] For E.S.T Office Hours Call 1-917-300-0470For U.S./CAN Toll Free Call 1-800-526-8630For GMT Office Hours Call +353-1-416-8900

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in line magnetic separator | ilms - coal handling plants

in line magnetic separator | ilms - coal handling plants

Feeding of power supply to ILMS done before starting of conveyor belt. As power supply to ILMS ON, electro magnet is energized and self-cleaning belt of ILMS start rotating. After stating of ILMS, conveyor belt started. As the tramp iron comes along with conveyer material in magnetic field area which is created by electro magnet, the tramp iron is attracted towards the electro magnet. The ILMS self-cleaning belt will carry the tramp iron beyond the edge of the conveyor with the help of aluminium angle fitted in the ILMS self-cleaning belt. As the tramp iron gets beyond the magnet field it will drop off. Position of adjustable divider ensure that the trap iron does not fall back on the main conveyor. Finally, the trap iron discharge into a hopper through the divider.

magnetic separator and permanent magnet

magnetic separator and permanent magnet

The magnetic separator uses the magnetic difference between minerals for sorting, plays the role of improving the grade of ore, purifying solid-liquid materials, and recycling waste. It is the most widely used and highly versatile machine in the industry. One.

Magnetic separators are widely used in mining, wood, kiln, chemical, food and other industries. For mining, the magnetic separator is suitable for wet or dry magnetic separation of manganese ore, magnetite, magnetite, roasted ore, ilmenite, hematite and other materials with a particle size below 50mm. , Non-metallic mines, building materials and other iron removal operations and waste disposal operations

The magnetic separator (take wet permanent magnetic cylinder magnetic separator as an example) is mainly composed of 6 parts: cylinder, magnetic roller, brush roller, magnetic system, tank and transmission part. The cylinder is welded into a cylinder by 2-3mm stainless steel plate, and the end cover is cast aluminum or workpiece, which is connected to the cylinder with stainless steel screws. The motor drives the cylinder, magnet roller and brush roller to rotate through a speed reducer or a step-less speed regulating motor.

After the ore slurry flows into the tank through the ore feed box, the ore particles enter the ore feeding area of the tank in a loose state under the action of the water flow of the ore spray pipe. Under the action of the magnetic field, the magnetic ore particles are magnetically aggregated to form a magnetism group or magnetism chain. The magnetism group or magnetism chain is subjected to a magnetic force in the slurry and moves toward the magnetic pole and is adsorbed on the cylinder . Since the polarities of the magnetic poles are alternately arranged along the direction of rotation of the cylinder and are fixed during operation, the magnet or flux rotates with the cylinder, and the magnetic stirring phenomenon occurs due to the alternating magnetic poles and is mixed. The non-magnetic minerals such as gangue in the magnetism or magnetism chain fall off during the tumbling, and the magnetism or magnetism chain that is eventually attracted to the surface of the cylinder is the concentrate. The concentrate is transferred to the weakest part of the magnetic system edge with the cylinder, and it is discharged into the concentrate tank under the action of the flushing water sprayed from the unloading water pipe, and the non-magnetic or weakly magnetic minerals are left in the slurry and discharged out of the tank with the slurry , That is tailings.

Dry magnetic separator: Separation in the air, mainly used to separate large and coarse particles of strong magnetic ore and fine particles of weak magnetic ore. At present, it is also trying to sort fine ferromagnetic ore;

In addition, it can be classified according to the way the magnetic ore particles are selected, the movement direction of the feed material, the method of discharging the selected products from the selected section, and the structural characteristics of the discharged magnetic products.

The closed circuit through which magnetic flux is concentrated is called a magnetic circuit. The magnetic system of the magnetic separator needs to generate a certain intensity of magnetic field, and most of the magnetic flux in the magnetic field can be concentrated through the separation space. The height, width, radius and number of poles of the magnetic system, the magnetic potential difference between adjacent poles, the pole distance, the width of the pole face width and the pole gap width, the shape of the pole and pole face, and the pole face to the center of the arrangement The distance and so on have no small effect on the magnetic field characteristics.

The magnetic separator shown in the following figure is an example. The magnetic circuit part adopts a five-pole magnetic system. Each magnetic pole is formed by bonding a ferrite and a neodymium-iron-boron permanent magnet block. It is fixed to the magnetic guide plate with a screw through the center hole of the magnetic block On the upper side, the magnetic guide plate is fixed on the shaft of the cylinder through the bracket, the magnetic system is fixed, and the cylinder can rotate. The polarities of the magnetic poles are alternately arranged along the circumference, and the polarities are the same along the axial direction. Outside the magnetic system is a roller made of stainless steel non-magnetically conductive material. The non-magnetically conductive material is used to avoid that magnetic lines of force cannot enter the selected zone through the cylinder and form a magnetic short circuit with the cylinder. The part of the tank close to the magnetic system should also be made of non-magnetic materials, and the rest should be ordinary steel plates or hard plastic plates.

For the permanent magnet separator, the permanent magnet is the most important component, and the quality of the permanent magnet determines its performance characteristics. The permanent magnets of magnetic separators are generally made to a certain size (for example, length width height = 85 65 21 mm), so they are traditionally called permanent magnet blocks or magnetic blocks for short. The permanent magnet materials that can be used in the magnetic system of the magnetic separator include permanent magnet ferrite, aluminum nickel cobalt, iron chromium cobalt and manganese aluminum iron, samarium cobalt permanent magnet materials, and neodymium iron boron permanent magnet materials. At present, the mainstream permanent magnetic materials used in domestic magnetic separation equipment are mainly permanent ferrite (strontium ferrite, barium ferrite), followed by neodymium iron boron permanent magnetic materials.

In the design of the magnetic system, it is necessary to choose which permanent magnetic material to use according to the specific conditions of various aspects. The influencing factors can be summarized into the following aspects:

Magnetic field strength: A constant magnetic field must be generated in the designated workspace. The strength of this magnetic field determines which permanent magnetic material is required. The magnetic properties of NdFeB permanent magnets are much higher than ferrites.

magnetic separation magnetense

magnetic separation magnetense

Contact us to find out how Magnetense can help you solve system and productivity challenges. We offer complimentary video, telephone and chat conversations to help you clarify your needs so we can offer cost-efficient solutions.

Project ManagerMr. Giuseppe Zuccon 1. Our drum jacket was wearing too quickly and we also wanted a magnetic separated that would remove small ferrous parts during the production process.. 2. What product did you purchase? Ferrite magnetic drum. 3. What result did you get? We achieved the . removal distance related the test is 170mm which is good. We also noticed the quality of drum is excellent.. 4. Would you recommend us? Yes, we would recommend you.

Manager Head of Technical DepartmentMr. Valter Garbi 1. We had no specific problems; we just needed to reduce our maintenance and supply costs. 2. What product did you purchase? Magnetic rod for our chargers. 3. What result did you get? We conducted a comparative test on our previous and new magnetic separators and found the Magnatense product has far greater magnetic separation efficiency. 4. Would you recommend us? Yes, we would recommend you.

Purchase ManagerIng. Luca Ceccarelli 1. What product did you purchase? Neodymium rods. 2. What result did you get? We found the magnetic performance in our machine significantly improved once we installed your rods. We were able to develop 13,500 Gauss in contact with the pipe and 14,250 on the outside. 3. Would you recommend us? Yes, we would recommend you because your solution offers outstanding magnetic performance compared to other available systems.

Technical ManagerMr. Luca Durante 1. What product did you purchase? We purchased magnetic plates with the neodymium magnet which we installed on a batch feeder for our hammer mill. 2. What was the problem? We needed to remove metal parts that could go into the mill. 3. What result did you get? We successfully removed all unwanted metallic parts. 4. Would you recommend us? Yes, we would recommend you as suppliers of magnetic systems.

Engineering DepartureMr. Vito Lomorno 1. What was the problem? We were using a system where we couldn't separate the iron from unwanted parts. 2. What product did you purchase? Magnetic pulleys and neodymium rings. 3. What result did you get? We achieved a substantial increment in magnetic separation and an improved customer satisfaction rate from our own customers. 4. Would you recommend us? Yes, we would recommend you for your technical expertise and customer service.

Technical ManagerMr. Giovanni Bianchi 1. What was the problem? We could not prevent ferrous parts from accidentally entering the hammer mill. 2. What product did you purchase? Ferritic magnetic plate. 3. What result did you get? The magnetic plate we purchased has prevented all ferrous objects from entering the upper part of the mill. 4. Would you recommend us? Yes, without any doubt we would recommend you and your product.

Chief ExecutiveSig. Giordano Luca 1. What was the problem? Intercepting iron particles flowing in a pipe used to pneumatically load flour from cisterns to silos. 2. What product did you purchase? Pressurised magnetic piping. 3. What result did you get? The pneumatically loaded flour is free from ferrous particles and it is now safe to move to the next process steps. The machinery is protected from ferrous contaminants. 4. Would you recommend us? Yes, we would definitely recommend you.

Purchase ManagerSig. Paolo Massano 1. What was the problem? Our existing magnetic system did not remove iron from the mill feeders at a satisfactory rate. 2. What product did you purchase? We purchased the Neodymium or ferrite sticks with a 32mm diameter and a 200mm length. 3. What result did you get? We achieved a significant improvement in the removal rate when compared with the previous system. 4. Would you recommend us? Yes, I would recommend you.

Purchase ManagerSig.ra Stefania Manelli 1. What was the problem?Compartment in enamel filters. 2. What product did you purchase?We purchased a magnetic bar with a 32 diameter and 70 mm length. 3. What result did you get?We obtained good results.. 4. Would you recommend us?Yes, I would recommend you.

Established in Italy in 2000 to meet the growing demand for reliable and robust magnetic systems, Magnetense today is a world leader in the efficient design, build and distribution of state-of-the-art magnets, magnetic systems and consultancy services.

Products provided by Magnetence include ferrite/neodymium magnets; manufacturing; and production of magnetic separators such as drums, rolls, plates, overbands, pipings, filters, rods, bars and textile rods.

The WHIMS separator is a magnetic separation machine used in wet separation processes to treat fine grain materials which are smaller than 1.2mm or 200 mesh. These fine grain materials include red mine hematite, limonite, manganese ore, and ilmenite. The WHIMS is also used to treat magnetic minerals including quartz, feldspar, nepheline ore, and kaolin. This system removes iron contaminants to concentrate the treated minerals.

The Balance 2 Drum Magnet features a maximum 10,000 Gauss magnetic power: among the most powerful available on the marketThis drum achieves an excellent wear resistance which is due to Magnetenses unique BL2 balancing system. The BL2 is designed to be easily assembled and tested.

The RO and FLY magnetic rods are newly reinvented rods that have been specifically designed and built by the team at Magnetense. The RO models have a magnetic power of between 6,500 and 12,000 Gauss and the FLY model achieves a maximum power of 14,000 Gauss. The RO and FLY rods are made from high grade neodymium with single section mechanical structures and no moving parts. All rods have exceptional wear resistance which is more than double industry standard and which contributes to long-lasting efficiency.

The Overband Shark and Ova magnetic belts have been uniquely designed to include a combination of ferrite and neodymium magnets. Older generation conveyor belts were generally only fitted with ferrite magnets. This new belt design enables producers to reach more than 5507 Gauss along with a 10 per cent lighter structure when compared to other industry-standard overbelts.

The HMF electromagnetic filters are used in wet process separation of para-magnetic minerals found in quartz, feldspar,silicates, calcium carbonate and kaolin. The flow-rates are engineered in accordance with customer requirements.

The MAG Dry Magnetic Separators include the 1.10/15 and the MAG 3.10/15. Both machines have been designed and manufactured to de-iron a range of sand materials. This includes paramagnetic minerals such as hematite, biotite, ilmenite which are easily captured by Tiger Pulleys powerful magnets. The MAG 1.10/15 and the MAG 3.10/15 magnetic separators are specifically calibrated to remove fine iron particle sizes ranging from 0.1 to 1.8 mm.

The Gravity Feed, Pneumatic Pipe and Electric Pipe magnets comprise a specialist mechanical structure that guarantees higher than industry standard wear resistance. The structure is made from high grade neodymium which allows users to achieve 20% per cent more power than our older generation pipe magnets.

The Tiger Magnetic Pulleys have a diameter of 300mm and a working height of 1500 mm which gives these pulleys a much higher capacity than lower height and diameter machines. These features are combined with an exceptional magnetic power of 12,310+ Gauss that is in contact with the surface and which allows the magnetic rollers to practically catch any magnetic particle or paramagnetic mineral.

The ROL Magnetic Pulley is manufactured with double cross poles which helps the system to reach much higher magnetic power than standard industry separators. The ROL is fixed with Magnetenses Track fixing system which guarantees close to unlimited efficiency and resistance.

The PLV1 Magnetic Plates add an entire new dimension to plate design and use. The aesthetically pleasing PLV1 has exceptional wear resistance and separation efficiency of between 15 and 20 per cent more than our older generation systems. The PLV1 is also equipped with magnetic shielding to help mitigate workplace accidents.

The PLV2 Magnetic Plates add an entire new dimension to plate design and use. The aesthetically pleasing PLV2 has exceptional wear resistance and separation efficiency of between 15 and 20 per cent more than our older generation systems. The PLV2 is also equipped with magnetic shielding to help mitigate workplace accidents.

Our new Batex Magnetic Textile Bars achieve 25 per cent more magnetic field power than our older separation systems. This result was achieved following constant tests aimed at improving the performance of the magnetic system. The New Batex bar also achieves a better separation of iron, even with the same magnetic field.

Established in Italy in 2000 to meet the growing demand for reliable and robust magnetic systems, Magnetense today is a world leader in the efficient design, build and distribution of state-of-the-art magnets, magnetic systems and consultancy services.

Products provided by Magnetence include ferrite/neodymium magnets; manufacturing; and production of magnetic separators such as drums, rolls, plates, overbands, pipings, filters, rods, bars and textile rods.

Magnetense team of engineers are responsible for the entire process including research, design, manufacturinge and global distribution of all products and services. By controlling the entire process operating costs are reduced to the minimum so products are sold to end users competitive price.

Unfortunately there are many magnetic systems manufacturers that promise unreal results eventually not achievable: by conducting a magnetic field measurement created by their systems their claims can be debunked.

In some cases magnetic system manufacturers chose to demonstrate their magnetic performances based on calculations in a closed circuit or through the incorrect use of an instrument; by testing their system any false claim can be debunked.

Magnetic performances based on calculations in a closed circuit or through the incorrect use of an instrument Are often claimed by magnetic system manufactured, but, physics is not made of fairy tales their claims can be easily exposed.

Contact us to find out how Magnetense can help you overcoming system and productivity challenges. We offer complimentary video, telephone and chat conversations to help you clarifying your needs in order to present you with the most cost-efficient solutions.

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