PHOOLCHAND BHAGATSINGH

Santacruz West, Mumbai, Maharashtra

Antimony metal powder is a fine, grayish-white powder that is made from the metallic element antimony. It is commonly used in various industries, including electronics, semiconductors, and batteries. As you mentioned, Phoolchand Bhagat Singh is an exporter, importer, and trader of various minerals, including antimony metal powder.

As an exporter, importer, and trader of minerals, Phoolchand Bhagat Singh may handle the sourcing, transportation, and distribution of antimony metal powder and other minerals for use in various industries. However, it is important to note that antimony metal powder, like many other minerals, may be subject to regulations and restrictions in some jurisdictions due to its potential environmental and health hazards. Companies like Phoolchand Bhagat Singh need to comply with all applicable regulations and best practices to ensure the safe handling and responsible use of antimony metal powder and other minerals.

When used with neutralize bases, it reacts as acids. This inorganic compound with CoSO4(H2O)x formula has red monoclinic crystals like appearance. These crystals can melt at temperature around 100 C, while these become anhydrous at temperature 250 C.
CoSO4 is soluble in water at 20C, methyl alcohols and slightly in ethyl. With a 3.71 g/cm3 (anhydrous) and 1.948 g/cm3 (heptahydrate) density, Cobalt Sulphate is prepared when aqueous sulfuric acid, cobalt metal and its oxide/ hydroxide react. Cobalt sulfate can be formed in hydrated form by heating the solution that drives off the water. Hydrated crystals can be heated at 250C temperature to drive off the water in the formation process of anhydrous cobalt(II) sulfate.
This inorganic compound is not safe for the environment and is harmful for humans if gets in direct contact or inhaled.

Applications of Cobalt Sulphate

Cobalt(II) sulfate finds use in sympathetic inks, electroplating baths and storage batteries. It can be used as an additive to animal feed and soil. Pigments can be prepared using hydrated cobalt(II) sulfate. Cobalt pigment is used for coloring glass and porcelains.

Application Industries

• Chemical
• Rechargeable batteries
• Ceramic pigments
• Electroplating

Aluminium silicone(oraluminum silicate) is a name commonly applied to chemical compounds which are derived fromaluminium oxide, Al₂O₃andsilicon dioxide, SiO₂which may beanhydrousor hydrated, naturally occurring asmineralsor synthetic. Their chemical formulae are often expressed as xAl₂O₃ySiO₂zH₂O. It is known asE numberE559.

Phoolchand Bhagat Sing is an Indian company that operates as an importer and exporter of various products, including antimony oxides. Antimony oxide is a white, odorless, and crystalline powder that is composed of antimony and oxygen.

Antimony oxides are produced by either the oxidation of antimony metal or by the reaction of antimony trisulfide with oxygen. The resulting powders are used in a variety of applications, including flame retardants, plastics, and ceramics.

Phoolchand Bhagat Sing offers different grades of antimony oxides, including high purity and low impurity varieties. High purity antimony oxides are used in applications that require low levels of impurities, such as in the manufacture of electronic components. Low impurity antimony oxides are used in applications where low levels of impurities are required, such as in the production of high-performance ceramics.

Antimony oxides are used as flame retardants in a variety of products, including plastics, textiles, and electronics. They are also used as opacifying agents in ceramics, as a pigment in paints, and as a catalyst in the production of polyester.

As an importer and exporter, Phoolchand Bhagat Sing sources its antimony oxides from different manufacturers around the world and supplies them to customers in various industries. The company is committed to providing high-quality products and excellent customer service to its clients.

Chrome concentrate is a material that is produced from chrome ore. It is a high-grade, concentrated form of chromium that is used in the production of various industrial and consumer products, including stainless steel, superalloys, and chrome plating.

The production of chrome concentrate involves the extraction and beneficiation of chrome ore, which is typically mined from underground or open-pit mines. The ore is then processed using various methods, including gravity separation, magnetic separation, and flotation, to produce a concentrate that is rich in chromium.

Chrome concentrate is typically sold to steel mills and other manufacturers as a raw material for their production processes. The quality and price of chrome concentrate can vary depending on the grade and purity of the material, as well as market demand.

If you are interested in purchasing chrome concentrate, you may want to contact suppliers and manufacturers directly to inquire about their products, pricing, and shipping options. It's always a good idea to do your research and compare multiple suppliers to ensure you are getting the best quality and value for your investment.

We offerNickel Oxideto our clients.
Special packaging information is available on demand. Nickel oxide green powder is stored in original packing and under conditions mentioned on the safety data sheet (SDS

Description

A ferro alloy composed of silicon and iron is Ferro Silicon. The silicon content in this ferro alloy is between 15% and 90%. There is high proportion of iron silicide in it. Other elements present in Ferro Silicon are calcium and aluminium. This corrosion and abrasion resistant ferro alloys is silvery grey to dark grey in color. Its particles are available in different forms, like milled, crushed and lumps. It might react with water for hydrogen production. Some of the largest producers of this odorless Ferro Silicon are India, USA and China, responsible for global supply.
Production
Ferro Silicon production process starts with the blend of coke and silica (or sand), which is then subjected to reduction process in the presence of any iron source. Some of the most common iron sources are mill scale and scrap iron. If the silicon content is up to 15%, ferro silicon is made in blast furnaces lined with acid fire bricks. If the silicon content is larger than aforementioned, then electric arc furnace is used. The most common ferro silicon formulations include silicon content of 15%, 45%, 75%, and 90%. The rest content used is iron, along with about 2% of calcium and aluminium. Larger silica content prevents silicon carbide formation.
Applications

• Ferro silicon is a great source of silicon, which is why it is used for reducing metals for their oxides and deoxidizing steel & other ferrous alloys.
• Several ferro alloys can be made using ferro silicon.
• Silicon can be manufactured along with silicon steel and ferrous silicon alloys that are resistant to corrosion and high temperature.
• In the cast iron manufacturing, ferro silicon is used in iron inoculation process to increase graphitization.
• It is used in electrode coatings in arc welding.
• It can be used as an additive to cast irons to control the initial silicon content.
• Magnesium ferrosilicon (MgFeSi) is a prealloy which can be manufactured for the production of ductile iron.
• Magnesium from dolomite can be made in the Pidgeon process with the use of Ferro silicon.
• It can also be used in the production of carbon steel, silicon steel and stainless steel.
• It is used in metallurgical industry for different processes and reactions.
• Electric industry buys this ferro alloy to use it as a source of pure silicon.
• Chemical industry use it for the production of silicon copper.

• Si : 70 %min, Al : 1.5% max, C : 0.1% max

Calcium and silicon are both powerful deoxidizers. Therefore, calcium silicon is mainly used in high grade steels production as a deoxidizer and desulfurizer. Calcium Silicon can control size, shape, oxide distribution and sulfide addition, which improves several properties of the resultant products, for instance impact, ductility, machinability and fluidity. Calcium Silicon can be combined with Barium, as this chemical element works to reduce the vapor pressure and increase the density of the alloy, which also improves efficiency. It is mainly provided in powder and lump forms. Steel industry is the largest consumer of calcium silicon. Both, calcium and silicon have chemical affinity for oxygen. Calcium has chemical affinity for nitrogen and sulphur as well. Calcium Silicon alloy as a sulphide former enables sulfides distribution that minimizes chain-type inclusions.

Iron and boron are combined to form Ferro Boron (Fe-B). Many applications demand durable, strong and specialist steel; it is where ferro boron plays a key role. It is added to the steel to improve its properties. This ferro alloy is most useful when it comes to the production of specialist steel, even though this production process is expensive. It can be used as the most economical boron additive for steel and several other ferrous metals. It is available in different forms, like ferro boron powder, ferro boron granules and ferro boron lump.

In the production of amorphous metals, Ferro Boron is used as an additive to impart desirable properties to the resultant alloy. Using Ferro Boron as an additive to an alloy is beneficial as it can increase resultant alloy's magnetic susceptibility and make it suitable for Nd-Fe-B magnets production. Deep quench ability of the resultant alloy is also increased with the addition of Ferro Boron. Ferro Boron also improves wash resistance property of an alloy.

India, China and Turkey are top producers Ferro Boron and are responsible to supply it globally.

Production Process

In the production of Ferro Boron, a small amount of raw Boron and iron are mixed together. The resultant ferro alloy will be in either powder or lumps form. It is packaged in large bags and sold as per the weight.

Physical Properties

It is available in powder form in desired particle size.

Applications

There are many applications of Ferro Boron, some of which are mentioned below:

It is used in hot spray painting.

It is useful element in the amorphous metals production.

It can be added to silicon compound and small quantity of iron at initial stage in the magnetic glass production.

It can make C-Mn and low alloy steels more hard.

It can be used to produce automotive sheet steels and low carbon cold working wire rod.

SPECIFICATION:-

B : 15 % min

Technical Molybdenum Oxide is also known in the market as roasted molybdenum concentrate. This Mo contains intermediary product that is roasted in the production process at air temperatures of Molybdenum Disulphide (MoS2) concentrate. The molybdenum disulphide content is 85-92%, while S ab. is 35-37%. The composition of roasted Mo concentrate comprises less than 0.1% S and minimum ab. 57% molybdenum. Our of 100% Global Technical Mo Oxide produced globally, 30 to 40% is processed into Ferromolybdenum. Similarly, around 25-30% ab. Is processed into different chemical products, such as Molybdic Oxides and Molybdates.

Major part of Technical Molybdenum Oxide is applied in direct alloying of steel with Molybdenum in EAF as well as Converter type furnaces (to get up to 3% Mo content in EAF furnaces and up to 1% in Converter-type furnaces). It is preferred over Ferromolybdenum for its lower cost and faster dissolution rate.

Molybdenum (Mo) is a recalcitrant metallic component utilized basically as an alloying operator in steel, cast iron, and superalloys to improve hardenability, quality, strength, and wear and erosion obstruction. To accomplish wanted metallurgical properties, molybdenum, fundamentally as molybdic oxide or ferromolybdenum, is much of the time utilized in blend with or added to chromium, manganese, niobium, nickel, tungsten, or other composite metals. The adaptability of molybdenum in improving an assortment of compound properties has guaranteed it a noteworthy job in contemporary modern innovation, which progressively requires materials that are workable under high pressure, extended temperature ranges, and exceptionally destructive situations. Also, molybdenum finds critical use as an obstinate metal in various concoction applications, including impetuses, ointments, and shades. Maybe a couple of molybdenum's uses have worthy substitutes.

About 25% of the roasted molybdenite concentrate produced worldwide is processed into a number of chemical products. Upgrading is performed by sublimation to produce pure molybdic oxide (MoO3) by wet chemical processes to produce a wide range of pure molybdenum chemicals (mainly molybdic oxides and molybdates).

The latter involves dissolution of the roasted concentrate in an alkaline medium (ammonium or sodium hydroxide), followed by removal of impurities by precipitation and filtration and/or solvent extraction. The resulting ammonium molybdate solution is then converted to any one of a number of molybdate products by crystallisation or acid precipitation. These can be further processed by calcination to pure molybdenum trioxide.

SPECIFICATION:-

• Mo : 57% min ( Chemical & Foundry Grade)