Drilling barite powder buyers in Gulf region

Drilling barite powder buyers in Gulf region

Barium sulfate

Barite or Barium sulfate, in the form of BaSo4, is in the nature of a vein or lignite ore in white to gray, red, brown. Barite because of high specific gravity, ease of use and cost-effective on the job, being chemically inert consumed. Burite mining is considered a vital mineral in the oil and gas drilling industry, 90% of the world’s barite is consumed in drilling fluid.

Drilling fluid barite powder

Analysis of Barite (GRADE A.P.I)

Specific Gravity 4.22 g/qcm Min
Alkaline Earth Metal (as calcium) 30-60 ppm Max
Water Solule 0.08 % Max
Lead Content 250 ppm Max
Moisture 0.20 % Max

Residue on 74 MIC 1.00-2.50 % W
Residue on 45 MIC 8-12 % W

Analysis of Barite (GRADE O.C.M.A)

Specific Gravity 4.21-4.25 g/qcm
Alkaline Earth Metal (as calcium) 30-60 ppm
Water Soluble Solid 0.08 %
Apparent Viscosity After& Adding Gypsum 90 cps
PH 6.5-7
Moisture 0.20 % W

Residue on 74 MIC 1.00-2.50 % W
Residue on 45 MIC 8-12 % W

Oil and gas drilling
In deep drilling for oil and gas in a rotary manner, and in areas where gas or liquid pressure is low, for catheterization, a heavy product is required that, in turn, controls the flow of materials and prevents it from being pressurized. Due to the proper conditions of barite in this case it is used. In this case, the barite powder is added to the usual solution of water and clay. Due to the beneficial properties of this mixture, such a heavy chemical composition, cleanliness and a relatively inexpensive price is neutral.

Generally, 2.4 times the annual produced barite is absorbed and consumed in this area. Barite is a vital minerals in the oil and gas drilling industry. According to the 1980s, about 90 percent of the production of Rhina was consumed in drilling mud. Barite is used for drilling mud due to its high specific gravity, the simplicity of use during work, chemical neutrality, and fineness and suitability for price. The amount of barite consumed per km of drilling was reported at about 429 tonnes.

Buy the world’s best powder talcum from Mining Plus

Buy the world’s best powder talcum from Mining Plus


Talc is a magnesium carbonate with a chemical composition of Mg3Si4O10 (OH) 2, Talc is a phyllosilicate mineral that is divided into thin plates. These pages are kept only by the Vandalasi link, which allows these pages to slide freely on each other. This is the same property that is responsible for the high softness of talc, the touch of greasy to its soap and its value as a high temperature lubricant.

Where are talc produced?

Talc production in 2011 continued to decline due to the global downturn. In most countries, the 2011 production was almost the same as in 2010. China, South Korea, India, the United States, Finland, Brazil, France and Japan were the pillars of talc production.
The United States is self-sufficient in producing most types of talc used in manufacturing. The production of 2011 was estimated at 615,000 tons worth about $ 20 million. Three companies in the United States have about 100% of production.
Talc is used as a filter, coating, pigment, volatile and volatile agent in plastics, ceramics, paints, paper, cosmetics, roof coatings, rubber and many other products. Data from the US Geological Survey.

powder talcum Buy the world's best powder talcum from Mining Plus

Buy the world’s best powder talcum from Mining Plus

Talcum uses

Although most people use talcum products every day, they do not recognize that talc is present in that product or plays a special role.

Talc in plastic

In 2012, about 26 percent of US-made talc used to make plastics. This talc was mainly used as filler. The lamellar shape of talc particles can increase the stiffness of products such as polypropylene, vinyl, polyethylene, nylon and polyester. It can also increase the thermal resistance of these products, reducing their shrinkage. In the manufacturing process, where plastic, rust (Extrode: passing metal or hot plastic from a formed hole to make fibers and wires, etc.), the very low hardness of talc is less wearing than the harder filler minerals, in Equipment will be created.

Talc in ceramic

In the United States, in 2011, about 17 percent of the talc used was used to make ceramics, such as bath equipment, ceramic tiles, crockery and dinnerware. When talc is used as a filler in ceramics, it can improve the firewall properties of greenware: the first step from the 5th stage of clay from crude to the final product, and improve the strength of the finished product.

Talc in color

Most of the colors are suspensions of mineral particles in the liquid. The liquid-colored section facilitates its application, but after the liquid is steaming, the mineral particles remain on the wall. Talc is used as a volumizer and filler in paint. The lamellar shape of the talc particles improves the suspension of solids in the can and helps to stick the liquid color to the wall without sagging.
Powdered talc has a very shiny white color, which makes it an excellent filler in the color of the paint, because it acts as a bleaching agent. The low talcum hardness is valuable because of less wear and tear, less damage in the spray nozzle and other painting equipment. In 2011, about 16 percent of the talc consumed in the United States was used to produce paint.

talcum powder

Talc in paper

Most of the paper is made of organic fiber pulp. This dough is made of wood, pieces of old fabrics and other organic materials. Finely mined minerals are added to the dough to work as a filler. When the dough forms in the form of thin sheets, the minerals fill the space between the dough fibers as a result of paper with a much more soft surface for writing. Talc as a mineral filler can reduce opacity, improve the gloss and whiteness of paper. Talc can also increase the ink absorption capacity of paper. In 2011, the paper industry consumed about 16 percent of the talc used in the United States.

Talc in cosmetics and antiperspirants

Powdered talc is the basis of many cosmetic products. Thin thin sheets of talcum powder stick easily to the skin and wash it easily. Talcum’s softness allows it to be rubbed and cleaned without scratching on the skin.
Talc also has the ability to absorb oils and sweat produced by human skin. The ability of talc to absorb moisture, absorb the odor, stick to the skin, function as a lubricant, and produce astringent effect in contact with human skin, makes it an important part of many anti-transpiration agents. In 2011, about 7% of the talc consumed in the United States was dedicated to the production of cosmetics and antiperspirants.
Talc and asbestos in some of the metamorphic rocks are usually in the vicinity of each other. The results of studies published in the 1960s and 70s raised concerns about the health of the use of asbestos talc in some cosmetic products.
But the United States Food and Drug Administration (FDA) states that “these studies are not indicative of the exact relationship, nor does it indicate that what risk factors may exist if such a relationship exists.” Considering these concerns, mining sites today carefully select and process talcum ores to avoid the presence of asbestos in talc intended for use in the cosmetics industry.

Talc in roofing materials

Talc is added to asphalt materials used in roofing coatings to increase their resistance to weathering. Talc powder is also sprayed on a roll roofing and shingles coating to prevent it from expelling. In 2011, about 6 percent of the talc consumed in the United States was used to make roofing materials.Black Foliated Olive, which has a massive shape, but is cut off as thin, flexible, non-elastic, and non-elastic sheets.

Other uses of talc

Talc can survive at temperatures at which oil-based lubricants are destroyed, so it is used as a fluid in places where temperatures are very high.
Potatralk is used as a carrier for anti-inflammatory and fungicidal agents, because it is easily scraped off by a nozzle and immediately adheres to the leaves and plant stems. Talc softness reduces the wear and tear of the used equipment.


Sugar silica is and what uses are in the glass industry?

Sugar silica is and what uses are in the glass industry?

Sugar silica

Silica or silicon oxide having a density of 21/2 and a clear, light stone. And when its impurity is less than 1 ppm, it is one of the best transparent glasses with ultraviolet transmittance. The pure gelatine silica has a melting point of 1750 degrees Celsius and can withstand temperatures of up to 1100 degrees in chemical and thermal containers.
Since silica is highly resistant to thermal shock, acids and electrical resistance, it is used to produce chemical components. Silica is also used in the production of fiberglass. Silica flour, which is obtained from soft sand gravel, is used in paints as well as for building flooring blocks. Its soft powder or granular particles are also used as abrasive material. This mineral is used in various industries such as ceramics, glass, glazing, casting, sodium silicate and ferrosilicon production, fillers, melting aid, refractories, abrasives, liquids purification and so on.

sugar silica

The quartz and silica resistance up to C 1470 has been used to provide casting molds for metals such as steel, black iron, aluminum and copper alloys, as well as refractories in the manufacture of iron and steel furnaces, ceramics, glass and cement. Other application uses such as abrasive, polished powder, filtration, sand and construction. Rounded and quality types are used to open gaps and increase permeability in oil and gas production. It can also be used as a filler in paint, plastics, rubber, putty and glue.

Application and use of silica:

There are many uses in the industries, including the production of ferrosilicon, glass, bricks, limestone, china, sodium production, casting, production of other silica materials, glazing, ceramic, casting and refractory, semiconductor, wool Silicate glass, electronic industry, rubber and plastics, paints, putty and glue for steel, water purification, cement, sand blasting, soap making, abrasion control of water pipes, industrial cleaners, paint and coating, ore flotation, stabilization Peroxide and corrosion control in water pipes and adhesives.

“Contact us for advice and purchasing this product”

The largest store selling silica Sugar size

The largest store selling silica Sugar size

Silica or silicon oxide

Silica or silicon oxide with the chemical formula (Sio2) is the most abundant oxide compound in the earth’s crust. Silica is in nature freely or in combination with other oxides. The name Silicon is derived from the Latin word silicon, meaning rock, flint or flint. The nickel name is given to all minerals with the general formula sio2. These minerals, with the same chemical formula, form the money of famous morphs that fall into the quartzes group. The quartz appears in a special way in the mountain, which in this case reveals all its physical and chemical characteristics. Quaterzes are not sensitive to acids and openings, but sensitive to fluoridric acid. In terms of texture and internal structure, each of the atoms of salinity is enclosed by 4 atomic oxygen tetrahedrons. Quartz has a hardness of 7 on a mouse-scale and a specific gravity of 65.2m. The chemical composition and physical properties of silica determine the quality and uses of each of the industries used.

silicon oxide and silica

Silica, which is famous for stones, has a density of 21.2 and a clear rock. And when its impure is less than a ppm, it is one of the finest glasses with ultra-violet ultraviolet transmittance. Pure silica has a melting point of 1750 degrees Celsius and can withstand temperatures up to 1100 degrees in chemical and thermal containers. Since silica is highly resistant to thermal shock, acids and electrical resistance, it is used to produce chemical components. Silica is also used in the production of fiberglass. Silica flour, which is obtained from soft sand gravel, is used in paints as well as for building flooring blocks. Its soft powder or granular particles are also used as abrasive material.

iron oxide and Production of granular iron ore from iran

iron oxide and Production of granular iron ore from iran

Iron Oxide Or Magnetite

Magnetite is one of the iron ore Fe3O4 chemical formulas and has pure iron 72.36% iron and 27.64% oxygen. The color changes from dark gray to black, with a specific gravity of between 5.16 and 5.18. The strong magnetism of this ore makes it possible to separate it from the waste material by a magnetic separator, but this does not allow other minerals or iron ores that do not have magnetic properties (including hematite) along with waste materials. Magnetite has a cubic crystal network, in the form of reverse spinel with two and three volumes of iron.


iron oxide or Magnetite

Production of granular iron ore

The iron ore extracted from the extraction chest should be stepped up and the waste products must be separated from the magnetite mineral. In the small processing units, the scale of the capacity below 500 tons per hour is recommended in the process of preparation as follows from the experience and technical examination and Economic has been numerous.
1. Primary grinding
Primary grinding in small scale units is often done by jaw crusher because it is recommended for grinding on capacities below 500 t / h for jaw crushers and is common in a 36-inch girder crusher. Jaw crusher and giratory crusher have a maximum crushing ratio of more than 7. At this stage crushing, shafts with dimensions of 400 to 600 mm are initially converted to a jaw crusher in the dimensions of about 100 to 150 mm, and then transferred to a giratory crusher, measuring from about 40 to 60 milligrams The meters are shattered.
The primary grinding is always open in the form of a line, and the use of the packet line and the loading bay are not common at this stage.
Due to the fact that always shackles of waste in the extraction process are mixed with iron ore mines and, on the other hand, the cost of grinding the secondary stage has low capacities and high costs, it is recommended at this stage of the product of the production of the primary crushing stage Which produces the primary crusher (jaw and giratory) by a magnetic drum pulley (magnetic tape separator)
) Are used to remove grains that are waste grit. Experience has shown that in mines that have low crop or shape of storage that results in high mixing, this stage of processing is very important and results in an increase of 40% production efficiency. .
The dry separators of the magnet drama will not be efficient at this stage because of the high degree of depreciation due to the coarse nature of the feed. The use of the drum blocker at this stage is recommended.
2. Secondary crushing
At this stage, the pre-processed seeds are crushed by secondary crusher, which at small scales are often of cone crusher type, they are converted to smaller dimensions so that the degree of freedom can be increased by the degree of freedom Higher.
The determinant factors in the product dimension of the secondary crushing stage are the intrinsic grade of the rock and the manner in which the magnetite ore is minted. The greater the amount of this conflict, the smaller it must be to reach the desired size. Another factor in this is shipping costs, ie, the cost of shipment of the product to the unit of production of iron ore concentrate is higher, and to avoid additional shipping costs, it is necessary to make the materials more expensive.
Secondary crushing is often in the closed direction and using shaking crushers for them to load them to produce a specific detonating product. Depending on the mechanical strength of the materials, the dimensions of the product and the desired grade in a secondary crushing unit of the crusher Cone and Spreads.
3. Final processing
At this stage, the final crushing product of the secondary crushing stage is processed by a drum of the magnet of the dry separators in two stages, and the seeds are divided into three parts of the waste, low grade and grained. The magnetic field at a stage in this part of the process has two Advantage:
First, the two-stage separation results in a better separation of grains from the low-grade, which plays an important role in enhancement and recovery.
Secondly, with the production of a low-grade product, along with the product of a skilled man, it is possible to reprocess the low-end segment in the future in the event of technology growth or increase in the value of sales of the product.

What is silica? What is the use of silica?

What is silica? What is the use of silica?


Silica or silicon oxide with the chemical formula SiO2 is the most abundant oxide compound in the crust. It is in nature freely or in combination with other oxides. Silicon is a name that is called a group of minerals consisting of silicon (silicon) and oxygen, which is one of the most abundant elements in the earth’s crust. Silica is usually crystalline and rarely found in irregular and non-crystalline forms. It consists of an oxygen atom and two silicon atoms, with the chemical formula SiO2.
Gravel is a substance made up of grains or small portions of minerals and rock fragments. Each of these seeds may consist of any mineral, but its main component is quartz composed of silica (silicon dioxide). Other components may include aluminum, feldspar, and metal minerals. Gravel of high silica, used for purposes other than construction and construction, is called industrial sand or silica sand.
The industrial use of silica sand depends on its purity and physical properties. Some of the important physical features are:
– Size and distribution of seeds
– Shape of the seeds
– Spherical state
– Grain strength and refractive properties

silicon oxide and silica

In general, SiO2 silica use is:

Glass molding, chinaisation, ferrosilicon production, ceramics, lime sandstone, casting, sodium silicate production, production of other silica materials, as a semiconductor in the electronic industry and glass wool production.
Significant amounts of crushed stone stones are used as building materials.
The consumption of silicon in each of these industries should be of high quality. Chemical composition, mineralogical structure and physical properties of silica are determinants of quality and uses in each of these industries. The chemical composition of silica is in fact the percentage of SiO2 present in the rock, as well as the percentage of each of the other oxides that are commonly associated with SiO2 in different deposits, and if their percentage exceeds a certain amount, its application in the industries Different or impossible.
In addition to the SiO2 percentage, rock mineralization also plays an important role in determining the quality and uses of it, since SiO2 may be present as a variety of silicates, which will affect the determination of the mineralization method and the way to remove impurities.
The physical properties of silica are also produced in the same way for grinding, granulation of silica powder, and determination of the use of powder produced.

What is calcium carbonate powder?

What is calcium carbonate powder?

Calcium carbonate powder

Calcium carbonate is an exceptional mineral. Calcium carbonate, or CaCo3, contains more than 4% of the Earth’s crust and is found all over the world. Calcium carbonate is one of the most widely used materials known to humans. It can be produced artificially, and is also available in egg shells and animal membranes such as snails and crabs. The pearl is also calcium carbonate. Calcium carbonate is extracted from the mine for use in industry. Pure calcium carbonate can be produced from marble, or it can be produced by passing carbon dioxide through a solution of calcium hydroxide.

Calcium carbonate is converted into lime by the loss of CO2, which is used in construction works, in the iron extraction industry and in the production of steel as a melting aid and for the preparation of calcium carbide. Lime in agriculture is also used to correct soil and adjust its PH. Calcium carbonate is used in ceramic and tile industries, especially in the glazing industry. Due to the formation of the eutectic, the melting point of the set is lowered and when applied in glaze, the coefficient of thermal expansion of the glaze is lowered. Calcium carbonate is one of the most used minerals used in the paper industry, plastics, paints and coatings as fillers and coatings (due to its special white color). The paper industry is valued worldwide for its high brightness and light dispersion, and is used as a cheap filler to illuminate the surface of the paper lint.

Calcium carbonate (PCC or Precipitated Calcium Carbonate)

This product is in fact the complete form of micronized calcium carbonate (GCC) because the morphology of the GCC crystals is improved throughout the process. For this reason, the interest in using it to increase product quality has increased.
The process of production of calcium carbonate carbonate by direct calcification of lime milk is carried out as follows:
– Extraction of high-purity ore
– Mining and crushing to the required dimensions,
– Removing some impurities from rock,
– Calcination in the furnace up to 1850 degrees Fahrenheit,
– Increased water to lime to produce lime milk,
– remove impurities from lime milk,
– Mixing of lactic acid with carbon dioxide, formation of calcium carbonate and its degradation,
– Remove impurities from the pulp,
– If needed, increase the percentage of solids in the pulp,
– If necessary for the production of dry crop dehydrating, drying, milling and packaging.

Calcium Melting or Micronized (GCC or Ground Calcium Carbonate)

GCC is produced directly from the extraction of pure mineral ores. The production process involves cooking, removing waste materials with garbage, grinding and grinding, dimensional classification and drying. The production method of this calcium carbonate is much simpler and less costly than calcium carbonate.

What is bentonite? What is the use of bentonite?

What is bentonite? What is the use of bentonite?


Bentonite is an inorganic material composed of clays or semi-clay, and of swollen minerals, which generally contain montmorillonite and a low amount of bilellate. For this reason, Bentonite is meant to contain 90-85% of the Montmorillonite mineral.

Bentonite compounds:

Bentonite is an aluminum phylocylate of the following formula:

(Na, Ca) 0.33 (Al, Mg) 2Si 4 O 10 (OH) 2. nH2O

Which is basically composed of Montmorillonite or Smectite Group minerals. The Smectite group’s minerals consist of doctrine and tertiary octahedral sequences. Deoxy Acrylate minerals include Montmorillonite, Beidellite and Nontronite. Tertiary octahedrons are hectorite and saponite minerals. Among the important properties of the family of smectite family, ionic succession, ductility, expansion and ion contraction can be mentioned. Due to weathering, smectite is formed in dry weather. In sedimentary rivers and lakes, kaolinite is often stable, although kaolinite and smectite sometimes turn into ilite in marine environments. Smectites from the Triassic to the present day can be found and, by increasing the depth, firstly into layers of clay, and then it can be converted into ethylene. Smectites are a type of clay soils 1: 2 widely used for absorption purposes. (1: 2 clay soils, a layer of aluminum and two layers of silica).

Bentonite is mainly based on two types:

  • Swelling bentonite or sodium bentonite.
  • Non-swelling bentonite bentonite or calcium bentonite.

The properties of the smectite family of minerals depend on their chemical composition and structure. In mineral sodium bentonite, ionic absorption, ductility, expansion and contraction are more than calcium. The dimensions of the sodium and calcium bentonite network will increase from 9.6 angstroms in normal mode to 20 angstroms if the humidity is 100 percent.

Swollen bentonites or sodium sodium bentonite can absorb and dilute their water by a factor of several times, so that it takes a gelatinous, plastic and adhesive state. This kind of bentonite is usually used in drilling and slurry fluids (walls).

drilling oil bentonite

Bentonite uses Drilling oil and gas:

Bentonite is used as a drilling mud for about 70 years ago due to its high susceptibility and high sulfur content and its sealing ability. This type of bentonite is more sodium or swollen. Calcium bentonite or acid soil is rarely It is used for this. For this purpose, bentonite is introduced as flower (a simple mixture of bentonite with water), known as flower and vanilla, and is injected into wells and drill holes to cover the walls as gel, crack and wall gaps. Boreholes fill up and reduce the water (injection) in the borehole. The lysis and its flow (due to flow) make it easier to drill the boreholes.

Bentonite infusion alone or with other materials prevents excessive water from penetrating into these specimens in boreholes or in adjacent juvenile formations. To test the suspension and the susceptibility, 22.25 grams of Bentonite are mixed with 350 cubic centimeters of distilled water, which determines the time of suspension and its concentration, and measures it with a specific concentration of 300 to 600 Yields, which Yield The minimum should be 90 bbl / ton. The mixture then passes through the pressurized filter and measures the volume of water obtained. Another method is a more sophisticated test, for this purpose, 1 g of bentonite with a thickness of 200 mesh with 350 cm The water cube is mixed and covered with a special coating, the remaining residue is dried on the sieve and weighed to determine the percentage of bentonite emitted from the surface. This figure is not Should not exceed 5.2% of the Atapolitis this figure is 8%.

The bentonite was the most used for drilling mud during the ten years 1971 to 1981 in 1981. As the western countries consumed about 1.8 million tons of oil wells this year, it was a sedykh type. Among them, the United States had the largest consumption In the industry, and in 1981 it alone accounts for 940 thousand tons, which is half the consumption of the western world. Where mineral water in the drilling area is prevented from clay type hormite, in other words, atopoulite and sepiolite It uses bentonite instead.

Sodium bentonite is used in oil and gas drilling. By releasing bentonite in water, relatively large sodium bentonite shells are converted to colloidal particles and release the electrical energy stored in the crystalline network and swell about 15 to 30 times the initial volume. This property is used to disperse heavy materials and cut off drilling, thus creating bentonite coating on the well wall, preventing the migration of oil and gas, and stabilizing the chassis and lubricating the drill. Bentonite also absorbs organic and inorganic materials from a mixture of water and helps to absorb its viscosity and enhance drilling debris. Hectorite also has similar properties.
Bentonite produces about 5% by weight of water-borne flowers, although in other types of drilling, such as oil or artificial ones, it is used more day by day, in some cases it is 1-1%, and is replaced by polymers.

What is dolomite ore? And Is used in the industry?

What is dolomite ore? And Is used in the industry?

What is dolomite ore?

Dolomite, also known as “Dolostone” and “Dolomite Stone”, is a sedimentary rock formed mainly of CaMg (CO2) 3, a dolomite rock. Dolomite is found in sedimentary basins all over the world. It is believed that dolomite is formed from post-depositional alteration of lime mud and calcareous limestone by magnesium-rich groundwater.
Dolomite and limestone, rocks are very similar to each other. The color range from white to gray and white to light brown are both the same (although the presence of other colors like red, green, and black) is possible. They have almost the same stiffness and both dissolve in dilute chloric acid. These two stones are cut and cut as a building material and are used for acid neutralization.

what is dolomite ore?

Is used in the industry?

Dolomite and limestone are used in a similar way. They are crushed and used as aggregates in building projects. These rocks are kiln-fired to form cement, cut into blocks and large plates to be used as dimensional stone. Calcite to produce lime. In some of these applications, dolomite is given priority. The higher rigidity of dolomite puts it in the making of construction materials in the top position. The lower solubility of dolomite renders this rock more resistant to the acidic content of rain and soil.
When limestone becomes dolomite, the dolomitization process leads to the formation of a weak reaction (weakening) reaction. This action can create a porous area in a layer, where the dolomitization occurs. These porous spaces can be traps for underlying fluids such as oil and natural gas. This is why dolomite is often a rock reservoir explored in the exploration of oil and natural gas. Dolomite can also serve as a host rock for lead, zinc and copper deposits.
In the chemical industry, dolomite is used as a source for “magnesium” (MgO). The stainless steel industry uses dolomite as a sintering agent in the processing of iron ore and as a flux in steel production. Dolomite is used as a soil conditioner and a food additive for livestock. It is used in ceramic and glass manufacturing. Dolomite has been used as a less important source of magnesium, but today they get magnesium from other sources.

Sell the best dolomite for the extraction of magnesium

Sell the best dolomite for the extraction of magnesium


Dolomite is found in the form of massive layers of several decades thick. They make up about 15% of the Earth’s crust and are found in large quantities throughout the world and are known as a common component of sedimentary rocks. Dolomite containing stones are known as dolomite dolomite or limestone dolomite. Perhaps there are no other minerals, which have the use of limestone and dolomite.


Projection of magnesium ingot from dolomite ore

Magnesium metal is considered as a light metal with favorable physical and mechanical properties in today’s world. The automotive and aerospace industries, as major consumers of magnesium metal, are replacing steel and aluminum parts with lighter magnesium components to reduce vehicle power consumption. Magnesium is also used as an alloying element in the production of aluminum alloys, another part of the global demand for magnesium to the alloying industry. Magnesium is one of the raw materials in the EU’s list of raw materials and strategic metals.

Dolomite is considered as one of the mineral resources of magnesium metal and is considered commercially among various sources of this metal. The process of thermal recovery of magnesium from dolomite ore due to the possibility of using relatively clean and inexpensive natural gas is of interest to major industrialized nations, including China, which accounts for more than 85% of the world’s magnesium in China, and mainly by the revival method Siliconera.

magnesium ingot
In the process of restoring magnesium silicon metamorphic (Pidgeon Process) from dolomite ore, dolomite ore first is calcined during a baking process in a furnace at a temperature of 1200-10000 degrees Celsius. Calcified dolomite with Ferrosilicon and Fluoride (Calcium fluoride) are mixed as other raw material and briquetted to the recovery furnaces. In refrigeration furnaces, briquettes are placed in special rituals at temperatures between 1200-100 ° C and under vacuum conditions, and magnesium regeneration is performed. Magnesium is obtained in the form of vapor in special containers of condensation in the form of magnesium crystals. Magnesium crystals produced after melting and filtration in melting furnaces are produced in special molds and magnesium ingots.