PHOOLCHAND BHAGATSINGH

Santacruz West, Mumbai, Maharashtra

Aluminum bronze is typically produced through a process called casting, which involves melting the metal and pouring it into a mold. It can also be produced through a process called powder metallurgy, which involves compacting powdered metal into a shape and then sintering it at high temperatures.
One of the key benefits of aluminum bronze is its ability to resist corrosion in harsh environments, such as saltwater or acidic chemicals. This makes it an ideal material for use in marine environments, such as shipbuilding and offshore oil platforms. It is also used in aircraft parts and automotive components, as well as in high-performance bushings, bearings, and gears.
Overall, aluminum bronze is a highly versatile and durable material that offers excellent strength and resistance to corrosion, making it a valuable choice for a wide range of industrial applications.

Tin bronze is a type of alloy that is composed of copper, tin, and sometimes small amounts of other elements. It is known for its excellent corrosion resistance, high strength, and good wear resistance, making it a popular choice for various applications.
Phoolchand Bhagat Singh is an importer and exporter of tin bronze alloys, among other metals. They offer a range of tin bronze alloys that are suitable for various applications, including:
Phosphor Bronze: This alloy contains a small amount of phosphorus, which gives it excellent wear resistance and strength. It is commonly used in the manufacturing of springs, bearings, and other mechanical parts.
Aluminum Bronze: This alloy contains aluminum, which gives it excellent corrosion resistance and high strength. It is commonly used in marine applications, such as propellers, valves, and pumps.
Silicon Bronze: This alloy contains silicon, which gives it excellent corrosion resistance and good strength. It is commonly used in the manufacturing of architectural hardware, marine hardware, and electrical connectors.
Manganese Bronze: This alloy contains manganese, which gives it excellent wear resistance and high strength. It is commonly used in the manufacturing of gears, bearings, and other mechanical parts.
Overall, tin bronze alloys offer a combination of properties that make them ideal for a wide range of applications. They are also easy to work with, making them a popular choice for manufacturing components in various industries.

Phoolchand Bhagatsingh is a company that supplies, imports, and exports various metals and metal alloys, including tin metal ingots.Phoolchand Bhagatsingh is a reputable supplier of various metals and metal alloys, including tin metal ingots, and that they have implemented a quality management system that is in line with international standards.

Carbon ferro chrome is an alloy of iron, carbon, and chromium, with a chromium content of between 50% and 70% by weight. It is produced by smelting a mixture of chromite ore, iron ore, and carbon in an electric arc furnace.

Carbon ferro chrome is primarily used as an additive in the production of stainless steel, as well as in other alloy steels and special-purpose alloys. It is added to steel to improve its corrosion resistance, as well as its strength and durability at high temperatures. Carbon ferro chrome can also be used as a deoxidizer and a refining agent in the production of some non-ferrous metals.

The properties of carbon ferro chrome depend on the specific composition of the alloy. High-carbon ferro chrome, for example, has a higher melting point and is more resistant to corrosion than low-carbon ferro chrome.

Niobium alloys are a group of alloys that contain niobium as the primary metal. Niobium is a rare, soft, gray metal that offers good corrosion resistance, high melting point, and superconductivity. Niobium alloys are commonly used in various applications, including the manufacturing of aerospace and medical implants, superconducting magnets, and high-temperature gas turbines.
Phoolchand Bhagat Singh is an importer and exporter of niobium alloys, among other metals. They offer a range of niobium alloys that are suitable for various applications, including:
Niobium-Titanium Alloy: This is a type of superconductive alloy that is commonly used in the manufacturing of superconducting magnets. It offers high magnetic field strength and can be used in various applications, including magnetic resonance imaging (MRI) machines.
Niobium-Hafnium Alloy: This is a type of high-temperature alloy that offers excellent strength and oxidation resistance at high temperatures. It is commonly used in the manufacturing of gas turbines and other high-temperature applications.
Niobium-Zirconium Alloy: This is a type of alloy that offers good corrosion resistance and high strength at high temperatures. It is commonly used in the manufacturing of chemical processing equipment and nuclear reactors.

Ferrous alloys are a type of metal alloy that contains iron as the main element along with other metals or non-metals. Examples of ferrous alloys include carbon steel, stainless steel, cast iron, and wrought iron.
Carbon steel is an alloy that contains iron and carbon, typically with a carbon content ranging from 0.05% to 2.0%. Stainless steel is a type of steel that contains chromium and often nickel, which enhances its corrosion resistance and durability. Cast iron is an alloy that contains iron, carbon, and silicon, and is known for its castability and low melting point. Wrought iron is an alloy that contains iron and a small amount of carbon, and is known for its ductility and toughness.
Ferrous alloys are widely used in various industries, including construction, automotive, aerospace, and manufacturing. They offer a range of properties such as strength, durability, and corrosion resistance, depending on their composition and processing.

Ferroalloy refers to various alloys of iron with a high proportion of one or more other elements such as manganese (Mn), aluminium (Al), or silicon (Si).[1] They are used in the production of steels and alloys.[2][3] The alloys impart distinctive qualities to steel and cast iron or serve important functions during production and are, therefore, closely associated with the iron and steel industry, the leading consumer of ferroalloys. The leading producers of ferroalloys in 2014 were China, South Africa, India, Russia and Kazakhstan, which accounted for 84% of the world production.[4] World production of ferroalloys was estimated as 52.8 million .

It is a steely-grey, lustrous, hard and brittle transition metal. Chromium boasts a high usage rate as a metal that is able to be highly polished while resisting tarnishing. Chromium is also the main component of stainless steel, a popular steel alloy due to its uncommonly high specular reflection. Simple polished chromium reflects almost 70% of the visible spectrum, with almost 90% of infrared light waves being reflected.

The two main products of chromite refining are Ferro Chrome and Chromium Metal. For the production of Ferro Chrome the chromite ore is reduced, usually by coal and coke in a high temperature reaction in an electric arc furnace to form the iron-chrome alloy. For production of pure chrome the iron has to be separated from the chrome in a two-step roasting and leaching process.

Chromium metal is of high value for its high corrosion resistance and hardness. A major development in steel production was the discovery that steel could be made highly resistant to corrosion and discoloration by adding metallic chromium to form stainless steel. Stainless steel and chrome plating (electroplating with chromium) together comprise 85% of the commercial use.

Ferrochromium alloy is commercially produced from chromite by silicothermic or aluminothermic reactions and chromium metal by roasting and leaching processes followed by reduction with carbon and then aluminium. Few types :

• Low carbon Ferro Chrome
• Extra Low Carbon Ferro Chrome
• Medium Carbon Ferro Chrome
• High Carbon Ferro Chrome
• Nitrided Ferro Chrome

It is a steely-grey, lustrous, hard and brittle transition metal. Chromium boasts a high usage rate as a metal that is able to be highly polished while resisting tarnishing. Chromium is also the main component of stainless steel, a popular steel alloy due to its uncommonly high specular reflection. Simple polished chromium reflects almost 70% of the visible spectrum, with almost 90% of infrared light waves being reflected

The two main products of chromite refining are Ferro Chrome and Chromium Metal. For the production of Ferro Chrome the chromite ore is reduced, usually by coal and coke in a high temperature reaction in an electric arc furnace to form the iron-chrome alloy. For production of pure chrome the iron has to be separated from the chrome in a two-step roasting and leaching process.

Chromium metal is of high value for its high corrosion resistance and hardness. A major development in steel production was the discovery that steel could be made highly resistant to corrosion and discoloration by adding metallic chromium to form stainless steel. Stainless steel and chrome plating (electroplating with chromium) together comprise 85% of the commercial use.

Ferrochromium alloy is commercially produced from chromite by silicothermic or aluminothermic reactions and chromium metal by roasting and leaching processes followed by reduction with carbon and then aluminium. Few types :

Nitrided Low Carbon Ferro Chrome is an alloy composed of chromium, iron, nitrogen, and carbon, with a low carbon content of less than 0.1% by weight. It is primarily used as an additive in the production of stainless steel and other high-performance alloys.

Nitrided Low Carbon Ferro Chrome is produced by smelting a mixture of chrome ore, iron ore, and coke or other carbonaceous material in an electric arc furnace or a blast furnace, with the addition of nitrogen gas. The resulting ferroalloy is then refined to remove impurities and adjust the composition to meet specific customer requirements.

The addition of Nitrided Low Carbon Ferro Chrome to steel can improve its strength, hardness, and resistance to wear, corrosion, and high temperatures. It can also improve the high-temperature properties of the steel, such as its resistance to oxidation and scaling, as well as its ability to maintain its mechanical properties at elevated temperatures.

Nitrided Low Carbon Ferro Chrome is available in different forms, including lumps, briquettes, and powder, depending on the specific application and customer requirements.

As an importer and exporter of Nitride Ferro Chrome, Phoolchand Bhagat Singh may provide various services to its customers, such as sourcing, logistics, financing, and quality control. The company may also offer technical support and advice on the use of Nitride Ferro Chrome in different applications.

Description

When iron and molybdenum are combined, a ferro alloy called Ferro Molybdenum is formed. It is mainly available in particle size of 10-100mm, and two major grades in which pure molybdenum content is 60%-75%. With a melting point of 1900 degrees Celsius, it is used as a hardening agent.
Properties of Ferro Molybdenum
It is mainly used as an additive in several amorphous metals production that results in new alloys with desirable properties. It is listed in the top 5 melting-point metals. It can be found in many heat-treatable alloy steels. In stainless steel, this ferro alloy prevents corrosion. When combined with iron, this ferro alloy strengthens and hardens into austenite. This versatile ferro alloy is also used in several high-strength low alloys. The beneficial properties of this ferro alloy make it useful in cast irons, super alloys and high-speed tool steels. When it is added to any material, it improves properties, like ferrite strength, corrosion resistance, weldability and wear resistance. It can be used for creating a protective film over other metals.
Manufacturing Process
The initial step in the production of ferro molybdenum is transforming the mined molybdenum into molybdenum (VI) oxide (MoO3), which later on is blended with aluminum & iron oxide. This mixture is reduced by an aluminothermy reaction. Ferro molybdenum is purified by electron-beam melting process. It can be formed in fine powder or small briquettes, which are packaged in bags and steel drums, respectively.

Applications

• Ferro molybdenum is used in ferrous alloys manufacturing. Different industrial sectors select Ferro molybdenum based on the molybdenum content to use it in manufacturing of military hardware, machine tools & equipment, load-bearing components, rotary drills and refinery tubing.
• It finds use in vehicles, like car, truck and trains.
• Stainless steel and heat-resistant steels that contain ferro molybdenum are used in several plant, equipment and systems, for instance oil-refining equipment, chemical plant, synthetic fuel plant, pump, heat exchanger, etc.
• It is also added in large amount in tool steels to be used in ball & rolling mills, large drill bits, high-speed machining components, dies, chisels, etc.

• Mo: 57%min

Vanadium alloys are materials that contain vanadium as one of the main components, usually combined with other metals such as steel, aluminum, titanium, or nickel. Vanadium is a versatile metal that is known for its high strength, durability, and resistance to corrosion and wear.

One of the most common vanadium alloys is ferrovanadium, which is a combination of iron and vanadium. This alloy is used as a raw material in the production of steel and other ferrous alloys. Ferrovanadium is added to steel to improve its strength, toughness, and ductility, making it suitable for use in construction, automotive, aerospace, and other industrial applications.

Vanadium-titanium alloys are also widely used, particularly in the aerospace and defense industries. These alloys are known for their high strength-to-weight ratio, excellent corrosion resistance, and ability to withstand high temperatures. They are used in the construction of aircraft engines, rocket motors, and other high-performance applications.

Other vanadium alloys include vanadium-nickel alloys, vanadium-aluminum alloys, and vanadium-copper alloys. Each of these alloys has its unique properties and applications, ranging from high-temperature applications to electrical conductivity.

Overall, vanadium alloys have become essential materials in modern industry due to their high strength, durability, and resistance to wear and corrosion.

Titanium Vanadium Aluminium alloysarealloysthat contain a mixture oftitaniumand otherchemical elements. Such alloys have very hightensile strengthandtoughness(even at extreme temperatures). They are light in weight, have extraordinarycorrosion resistanceand the ability to withstand extreme temperatures. However, the high cost of both raw materials and processing limit their use tomilitaryapplications, aircraft, spacecraft, bicycles, medical devices, jewelry, highly stressed components such asconnecting rodson expensivesports carsand some premiumsports equipmentandconsumer electronics.

High carbon ferrochrome representsa group of alloys with a chromium content typically between 60% and 70% and a carbon content typically between 4% and 6%. To meet this specification the alloy requires a chromite ore with a high Cr/Fe ratio (>2).

Titanium alloys are metals that are made by combining titanium with other elements to create a new material with specific properties. Titanium is a strong, lightweight metal that is highly resistant to corrosion, making it a popular choice for use in aerospace, medical, and industrial applications.
Common titanium alloys include:
Ti-6Al-4V: A titanium alloy that contains 6% aluminum and 4% vanadium. Ti-6Al-4V is known for its high strength, good fatigue resistance, and excellent corrosion resistance, making it a popular choice for use in aircraft parts, medical implants, and sporting equipment.
Ti-3Al-2.5V: A titanium alloy that contains 3% aluminum and 2.5% vanadium. Ti-3Al-2.5V is known for its good weldability, high strength-to-weight ratio, and excellent corrosion resistance, making it a popular choice for use in aircraft parts and medical implants.
Ti-6Al-2Sn-4Zr-2Mo: A titanium alloy that contains 6% aluminum, 2% tin, 4% zirconium, and 2% molybdenum. Ti-6Al-2Sn-4Zr-2Mo is known for its high strength, good creep resistance, and excellent fatigue resistance, making it a popular choice for use in aircraft engines and structural components.
Ti-5Al-2.5Sn: A titanium alloy that contains 5% aluminum and 2.5% tin. Ti-5Al-2.5Sn is known for its good strength-to-weight ratio, excellent corrosion resistance, and good weldability, making it a popular choice for use in aircraft structural components and medical implants.
Overall, titanium alloys are highly valued for their strength, corrosion resistance, and lightweight properties, making them a valuable choice for a wide range of industrial applications. However, they can be difficult to work with due to their high melting points and tendency to react with other elements, requiring specialized processing techniques.

Forging aluminum alloys are a group of materials that can be shaped through a forging process, which involves the application of high pressure to the material to shape it into a desired form. Aluminum forgings are produced by heating the aluminum alloy to a high temperature and then pressing or hammering it into the desired shape.

Forging aluminum alloys have many advantages, including high strength-to-weight ratio, excellent corrosion resistance, and good thermal and electrical conductivity. These properties make aluminum alloys ideal for use in applications where strength, durability, and lightweight are important, such as in aerospace, automotive, and construction industries.

Some of the most common forging aluminum alloys include 2014, 2024, 6061, and 7075. Each of these alloys has its own unique properties and advantages, which make them suitable for different applications. For example, 2024 and 7075 are high-strength alloys commonly used in aerospace and military applications, while 6061 is a more general-purpose alloy that is used in a variety of applications.

Phoolchand Bhagat Singh is a company based in India that is involved in the import and export of various products, including aluminum alloys . If you have any specific questions or inquiries about Forging aluminum alloys or other related products, you may want to reach out to them for more information.

Aluminum forging alloys are aluminum with small additions of other elements that enhance the final properties of the component. Aluminum forgings are normally produced in high volume.The major factors influencing the forgeability of aluminum alloys are the solidus temperature and deformation rate. Most of the alloys are forged at approximately 55C (100F) below the corresponding solidus temperature. Most aluminum alloys can be forged in any type of equipment that is used for other metals.Phoolchand Bhagat Singh is a company based in India that is involved in the import and export of various products, including aluminum alloys . If you have any specific questions or inquiries about Forging aluminum alloys or other related products, you may want to reach out to them for more information.

Ultra high purity and high purity forms also include metal powder, submicron powder and nanoscale, targets for thin film deposition, and pellets for chemical vapor deposition (CVD) and physical vapor deposition (PVD) applications.Vanadium aluminum alloy is a composite material that combines aluminum and vanadium as the primary alloying elements. These alloys are characterized by their high strength-to-weight ratio, excellent mechanical properties, and good corrosion resistance. They are commonly used in aerospace and automotive industries where lightweight and high strength are critical requirements.

Vanadium aluminum alloys are typically produced through a casting or powder metallurgy process, which involves melting the aluminum and adding vanadium to the molten mixture. The resulting alloy is then cast into the desired shape or formed into a powder that can be further processed into a desired shape.

One of the key benefits of vanadium aluminum alloys is their high strength-to-weight ratio. This makes them ideal for use in applications where weight reduction is important, such as in aircraft and spacecraft components. Vanadium aluminum alloys also have excellent mechanical properties, including high fatigue strength and good toughness, which make them suitable for use in high-stress applications.

Phoolchand Bhagat Singh is a company based in India that is involved in the import and export of various products, including aluminum alloys . If you have any specific questions or inquiries about Vanadium aluminum alloys or other related products, you may want to reach out to them for more information.

About
Tungsten is an important alloying element in high-speed and other tool steels, and is used to a lesser extent in some stainless and structural steels. Tungsten is often added to steel melts as ferrotungsten, which can contain up to 80% tungsten Commercial ferro-tungsten contains between 75 and 85% W. It has a steel grey appearance and a fine-grained structure consisting of FeW and Fe2W. It is supplied in 80-100 mm lumps.
Properties
Tungsten is one of heaviest metals and has the highest melting point of any element except carbon (3422 o C, 6192 o F), lowest vapor pressure (at temperatures above 1650 o C, 3000 o F) very high thermal creep resistance and the highest tensile strength. It is extremely resistant to corrosion and can be attacked only slightly by most mineral acids. One of the primary benefits of adding Ferro Tungsten to an alloy is to increase the alloy's melting point, making it suitable for aerospace applications as well as welding applications. Additionally, by adding Ferro Tungsten to an alloy, one can take advantage of tungsten's unique electrical capabilities as a conductor.
PRODUCTION OF FERRO TUNGSTEN
World tungsten resources are geographically widespread . A large portion of the global Ferro Tungsten supply is manufactured in China, Bolivia, Portugal and Russia. Tungsten is found in these minerals: wolframite, scheelite, ferberite and hubnerite. The most basic definition of the Ferro Tungsten production process would be that the minerals are mined and converted to tungsten oxide and then heated with hydrogen or carbon to produce a powdered form that is mixed with iron.
Uses

• Ferro Tungsten is used as additive in steel smelting or alloy materials.
• These super alloys that employ Ferro Tungsten are used in the production of turbine blades and other wear-resistant coatings and parts.

Substitutes

Potential substitutes for other applications are as follows: molybdenum for certain tungsten mill products; molybdenum steels for tungsten steels; lighting based on carbon nanotube filaments, induction technology, and light-emitting diodes for lighting based on tungsten electrodes or filaments; depleted uranium or lead for tungsten or tungsten alloys in applications requiring high-density or the ability to shield radiation; and depleted uranium alloys or hardened steel for cemented tungsten carbides or tungsten alloys in armor-piercing projectiles. In some applications, substitution would result in increased cost or a loss in product performance.

• W : 70 % min,

Aluminum zirconium alloy is a type of metal alloy that combines aluminum and zirconium. The addition of zirconium to aluminum can improve the alloy's strength, hardness, and resistance to corrosion, particularly in high-temperature environments.

Aluminum zirconium alloy is commonly used in aerospace and automotive applications, as well as in the production of sporting goods, such as baseball bats and tennis rackets. The specific composition and properties of the alloy can vary depending on the intended application.

The production of aluminum zirconium alloy typically involves melting and casting the metals together, followed by various forms of heat treatment and processing to achieve the desired properties. The alloy can also be formed through powder metallurgy techniques, such as hot isostatic pressing or sintering.

Bismuth alloys are metals that are made by combining bismuth with other elements to create a new material with specific properties. Bismuth is a rare and brittle metal that has low toxicity and is used in various applications, such as pharmaceuticals, cosmetics, and electronics.
Common bismuth alloys include:
Bismuth-tin alloy: A bismuth alloy that contains 50% bismuth and 50% tin. Bismuth-tin alloys are known for their low melting point, making them a popular choice for use in low-temperature solders, such as those used in electronics.
Bismuth-lead alloy: A bismuth alloy that contains 50% bismuth and 50% lead. Bismuth-lead alloys are known for their low melting point and good machinability, making them a popular choice for use in plumbing fixtures and other low-temperature applications.
Bismuth-cadmium alloy: A bismuth alloy that contains 50% bismuth and 50% cadmium. Bismuth-cadmium alloys are known for their low melting point and good electrical conductivity, making them a popular choice for use in electrical contacts and other electronic components.
Bismuth-antimony alloy: A bismuth alloy that contains 50% bismuth and 50% antimony. Bismuth-antimony alloys are known for their good machinability and low toxicity, making them a popular choice for use in low-temperature solders and as a substitute for lead-based alloys.
Overall, bismuth alloys are valued for their low melting point, good machinability, and low toxicity, making them a versatile choice for various applications. However, bismuth can be expensive and has limited availability, making it less common than other metals in alloys. Additionally, some bismuth alloys can be brittle and have limited strength, so it is important to choose the appropriate alloy for the specific application to ensure the best performance.

Aluminum bronze is a type of bronze alloy that contains aluminum as its main alloying element, along with copper, iron, and sometimes nickel. It is known for its high strength, excellent corrosion resistance, and good wear resistance, making it a popular choice for use in marine, aerospace, and chemical processing industries.
Lead alloys are metals that are made by combining lead with other elements to create a new material with specific properties. Lead is a soft, heavy metal that is relatively inexpensive and has good corrosion resistance, which makes it a popular choice for use in various applications, including batteries, plumbing, and radiation shielding.
Common lead alloys include:
Lead-calcium: A type of lead alloy that is commonly used in lead-acid batteries due to its high energy density, low self-discharge rate, and good cycling performance.
Lead-antimony: A type of lead alloy that is used in radiation shielding, bullets, and electrical components due to its high density and good mechanical properties.
Lead-tin: A type of lead alloy that is used in plumbing and soldering applications due to its low melting point and good malleability.
Lead-bismuth: A type of lead alloy that is used in radiation shielding and nuclear applications due to its ability to absorb neutrons and gamma rays.
While lead alloys offer many benefits, lead is a toxic substance that can cause serious health problems if ingested or inhaled. Therefore, it is important to handle lead alloys with care and follow proper safety precautions when working with them.

Antimonial lead alloy is a type of alloy that is made by adding antimony to lead. Antimony is a metalloid that is often used in alloys because of its ability to improve the hardness, strength, and corrosion resistance of metals.
Antimonial lead alloys are commonly used in the manufacturing of batteries, ammunition, and soldering materials. They are also used in the production of printing plates, as well as in the production of certain types of bearings and bushings.
Antimonial lead alloys can be tailored to have specific properties by adjusting the amount of antimony added to the lead. Alloys with higher antimony content tend to be harder and more brittle, while alloys with lower antimony content are softer and more malleable.
It is important to note that antimony is a toxic element, and precautions should be taken when handling antimonial lead alloys to prevent exposure to it.

Zirconium alloys are a group of alloys that contain zirconium as the primary metal. Zirconium is a silvery-white, corrosion-resistant metal that offers good mechanical properties, high melting point, and low neutron absorption cross-section. Zirconium alloys are commonly used in various applications, including nuclear power plants, chemical processing, and aerospace industries.
Zirconium alloys are well known for their excellent corrosion resistance, making them an ideal choice for use in aggressive environments. They also have high strength and good mechanical properties, making them suitable for high-performance applications.
Phoolchand Bhagat Singh is an importer and exporter of zirconium alloys, among other metals. They offer a range of zirconium alloys that are suitable for various applications, including:
Zirconium-Tin Alloy: This is a type of zirconium alloy that offers excellent corrosion resistance and high strength. It is commonly used in the manufacturing of nuclear fuel cladding, where it provides a barrier between the nuclear fuel and the coolant.
Zirconium-Niobium Alloy: This is a type of zirconium alloy that offers high corrosion resistance and good mechanical properties. It is commonly used in the manufacturing of heat exchangers and other components in chemical processing industries.
Zirconium-Copper Alloy: This is a type of zirconium alloy that offers high electrical conductivity and good mechanical properties. It is commonly used in the manufacturing of electrical contacts and other components in the aerospace industry.

Calcium alloys are a group of alloys that contain calcium as the primary metal. Calcium is a silvery-white, low-density metal that offers good electrical and thermal conductivity. Calcium alloys are commonly used in various applications, including the manufacturing of aluminum alloys, reducing agent in metallurgy, and in the production of batteries.
Phoolchand Bhagat Singh is an importer and exporter of calcium alloys, among other metals. They offer a range of calcium alloys that are suitable for various applications, including:
Calcium Aluminum Alloy: This is a type of calcium alloy that is used as a reducing agent in the production of aluminum alloys. It is also used as a desulfurizing agent in the steelmaking process.
Calcium Magnesium Alloy: This is a type of calcium alloy that is used in the production of lightweight and high-strength alloys. It is also used as a reducing agent in the metallurgical process.
Calcium Lead Alloy: This is a type of calcium alloy that is used in the production of lead-acid batteries. It improves the performance and reduces the internal resistance of the battery.

Ingot silver aluminum alloys are a family of aluminum alloys that have a silver appearance due to their high purity levels. They are typically made by melting and casting aluminum with low levels of impurities, resulting in a high-quality material with a consistent, uniform appearance.

The most common ingot silver aluminum alloy is 1050, which is a pure aluminum alloy with a minimum aluminum content of 99.5%. It has excellent electrical conductivity, high thermal conductivity, and good corrosion resistance, making it a popular choice for electrical and architectural applications.

Other ingot silver aluminum alloys include 1100, 1199, and 1350. 1100 is a high-purity alloy with a minimum aluminum content of 99%, making it an excellent choice for applications requiring high electrical conductivity, such as electrical wiring and transformers. 1199 is a high-purity alloy with a minimum aluminum content of 99.99% and is used in applications where purity is critical, such as semiconductor manufacturing. 1350 is an alloy with a minimum aluminum content of 99.5% and is used for electrical conductor applications.

Ingot silver aluminum alloys are valued for their high purity, consistency, and uniform appearance. They are commonly used in applications where appearance and electrical conductivity are critical, such as electrical wiring, semiconductors, and architectural applications.

As an importer and exporter of aluminum products, including ingot silver aluminum alloys, Phoolchand Bhagat Singh would likely work closely with aluminum suppliers and manufacturers to ensure that the products they supply meet the specific needs and requirements of their customers. This may include providing customized alloy compositions or sizes to meet the specific needs of a particular application or industry.

A354 VersaCastdelivers the high strength and elongation required for the most demanding structural applications. This innovative specialty alloy offers excellent fatigue resistance, high strength properties, plus 3XX casting characteristics. The result is maximum reliability, fuel economy and performance.As an importer and exporter of aluminum products, including ingot silver aluminum alloys, Phoolchand Bhagat Singh would likely work closely with aluminum suppliers and manufacturers to ensure that the products they supply meet the specific needs and requirements of their customers. This may include providing customized alloy compositions or sizes to meet the specific needs of a particular application or industry.

The aluminum metal melts at 640 degrees, and it's light with a density of 2.68. It is a good conductor of electricity though not of the same standard as copper on specific cross-section area and is widely used in CNC automotive like ATV, Aerospace and medical industries.

Manganese alloys are alloys that contain manganese as a primary alloying element. Manganese is a hard, brittle, silvery-white metal that is commonly used in the production of steel and other alloys. Manganese alloys are known for their high strength, resistance to wear and corrosion, and ability to withstand extreme temperatures.
Some common manganese alloys include:
Ferromanganese: an alloy of iron, manganese, and carbon, often used in the production of steel as a deoxidizer and desulfurizer.
Silicomanganese: an alloy of silicon, manganese, and iron, often used in the production of steel as a deoxidizer and alloying agent.
Manganese bronze: an alloy of copper, zinc, and manganese, often used for marine applications due to its high strength and corrosion resistance.
Hadfield steel: a type of austenitic steel containing 12-14% manganese, often used in the production of wear-resistant components such as crusher jaws and cone liners.
Manganese alloys can also be used in the production of batteries, ceramics, and electronic components. The properties of manganese alloys can be further modified by adding other elements, such as aluminum, titanium, and nickel, to improve specific properties such as strength, hardness, and ductility.

Ferro alloys lumps are a type of irregularly shaped solid material made by melting and solidifying different types of ferro alloys, which are alloys of iron with other elements such as manganese, silicon, and chromium. These lumps are commonly used in the steel industry as an alloying agent to enhance the properties of steel.

Ferro alloys lumps are used to introduce specific chemical elements into steel, which can improve its strength, durability, and other properties. For example, ferro manganese lumps are used to remove impurities from steel, while ferro silicon lumps are used to increase the hardness and strength of steel. Ferro chrome lumps are used as a corrosion-resistant coating for steel, and ferro molybdenum lumps are used to improve the strength and toughness of steel.

Overall, ferro alloys lumps are an important component of modern steel production, and their use helps to create stronger, more durable, and more resistant steel products. These lumps are widely traded globally, and Phoolchand Bhagat Singh.are involved in their import and export.

Tin alloys are a group of alloys that contain tin as the primary metal. These alloys are known for their low toxicity, good corrosion resistance, and excellent solderability, making them ideal for use in various applications.
Phoolchand Bhagat Singh is an importer and exporter of tin alloys, among other metals. They offer a range of tin alloys that are suitable for various applications, including:
Tin-Lead (Sn-Pb) Alloy: This alloy is commonly used in the electronics industry for soldering electronic components. It offers good solderability, low melting point, and good wetting properties.
Tin-Antimony (Sn-Sb) Alloy: This alloy is used in the manufacturing of pewter and other decorative items. It offers good strength, hardness, and corrosion resistance.
Tin-Bismuth (Sn-Bi) Alloy: This alloy is used in the production of low-melting alloys and soldering materials. It offers low toxicity, good solderability, and low melting point.
Tin-Zinc (Sn-Zn) Alloy: This alloy is used in the manufacturing of die-casting alloys, bearings, and other mechanical components. It offers good corrosion resistance, high strength, and good castability.
It is important to note that certain tin alloys may contain other elements that can affect their properties and toxicity. Proper handling and safety precautions should be taken when working with these materials to avoid exposure to any harmful substances.

Wrought alloy production Wrought aluminium is produced by smelting pure aluminium ingots with the specific alloying elements required to make a given grade of aluminium. The smelted alloy is then cast into billets or large slabs. This material is then either rolled, forged or extruded into its final shape

Chromium alloys are a group of alloys that contain chromium as the primary metal. Chromium is a hard and corrosion-resistant metal that offers high resistance to wear, heat, and oxidation. Chromium alloys are commonly used in various applications, including aerospace, defense, automotive, and industrial applications.
Phoolchand Bhagat Singh is an importer and exporter of chromium alloys, among other metals. They offer a range of chromium alloys that are suitable for various applications, including:
Stainless Steel: This is a type of chromium alloy that contains at least 10.5% chromium and is known for its excellent corrosion resistance. Stainless steel is commonly used in the manufacturing of kitchenware, automotive parts, and medical equipment.
Nichrome: This is a type of chromium-nickel alloy that is known for its high resistance to heat and oxidation. Nichrome is commonly used in the manufacturing of heating elements, such as in toasters and hair dryers.
Chromel: This is a type of chromium-nickel alloy that is used in the manufacturing of thermocouples for temperature measurement.
Inconel: This is a type of chromium-nickel alloy that offers high strength and resistance to corrosion and high temperatures. Inconel is commonly used in the aerospace and chemical industries for its high-temperature strength and corrosion resistance.
Overall, chromium alloys offer a combination of properties that make them ideal for a wide range of applications. They are also easy to work with, making them a popular choice for manufacturing components in various industries.

Magnesium alloys are metals that are made by combining magnesium with other elements, such as aluminum, zinc, and rare earth metals, to create a new material with specific properties. Magnesium is a lightweight and highly reactive metal that is widely used in various applications, such as aerospace, automotive, and electronics.
Common magnesium alloys include:
Magnesium-aluminum alloy: A magnesium alloy that contains aluminum as the primary alloying element. Magnesium-aluminum alloys are known for their high strength-to-weight ratio, good corrosion resistance, and good castability, making them a popular choice for use in aerospace and automotive applications.

Leaded bronze alloys are a group of copper-based alloys that contain lead as a primary alloying element. These alloys are known for their excellent machinability, good wear resistance, and low friction properties, making them suitable for use in various applications that require parts to operate smoothly and efficiently.
Some common leaded bronze alloys include:
C93200: also known as SAE 660, this alloy contains 81% copper, 7% tin, and 7% lead, and is often used for bearings and bushings.
C93700: this alloy contains 83% copper, 7% tin, and 7% lead, and is often used for bearings, gears, and valve components.
C93800: this alloy contains 81% copper, 7% tin, 7% lead, and 3% zinc, and is often used for bushings and bearings that require high strength and wear resistance.
C94100: this alloy contains 81% copper, 6% tin, 6% lead, and 7% zinc, and is often used for bearings and bushings that require good corrosion resistance.
Leaded bronze alloys are created through the process of melting and casting, and can be further modified with the addition of other elements, such as aluminum, nickel, and silicon, to improve specific properties. However, leaded bronze alloys are not recommended for applications that involve contact with drinking water or food, as lead can leach out and cause health issues.

Phoolchand Bhagat Singh or any specific work they might have done on aluminum zirconium alloy. However, I can provide some general information about aluminum zirconium alloy.

Aluminum zirconium alloy is a type of metal alloy that combines aluminum and zirconium. The addition of zirconium to aluminum can improve the alloy's strength, hardness, and resistance to corrosion, particularly in high-temperature environments.

Aluminum zirconium alloy is commonly used in aerospace and automotive applications, as well as in the production of sporting goods, such as baseball bats and tennis rackets. The specific composition and properties of the alloy can vary depending on the intended application.

The production of aluminum zirconium alloy typically involves melting and casting the metals together, followed by various forms of heat treatment and processing to achieve the desired properties. The alloy can also be formed through powder metallurgy techniques, such as hot isostatic pressing or sintering.

5xxx Series Alloys (non-heat treatable with ultimate tensile strength of 18 to 51 ksi) These are thealuminum / magnesium alloys(magnesium additions ranging from 0.2 to 6.2%) and have the highest strength of the non-heat treatable alloys.

A ferro alloy comprises Vanadium and aluminium is Ferro Aluminium (FeAl). The aluminium content in ferro alloy is about 40 to 60 percent. Low melting point alloys can be manufactured using this ferro alloy. It can also use be used in aluminothermic welding. The iron content in this ferro alloy is beneficial for maintaining strength at high temperatures, reducing casting defects and improving hardness, tensile and yield. The countries in which this ferro alloy is largely produced are the US, Canada, Australia, Russia and China.

The major factors influencing the forgeability of aluminum alloys are the solidus temperature and deformation rate. Most of the alloys are forged at approximately 55C (100F) below the corresponding solidus temperature. Most aluminum alloys can be forged in any type of equipment that is used for other metal

Ferrovanadium is a universal hardener, strengthener and anti-corrosive additive for steels like high-strength low-alloy (HSLA) steel, tool steels, as well as other ferrous-based products.
The content of vanadium in ferro vanadium varies from 45 to 50% and sometimes it is up to 80%, depending upon the demand. The 45 to 50% grade is produced from slag and other vanadium containing material by silicothermic reduction of pentoxide (V2O5 ) in presence of steel scrap or by direct reduction in an electric arc furnace. The resultant vanadium steels can be divided into microalloy or low-alloy steels with less than 0.15% vanadium and high-alloy steels with up to 5% vanadium.
Non-metallurgical applications include its use as catalyst and in ceramic, chemical, pigments, health preparations and electronic industries. It is also used to produce a super conductive magnet with a field of 1, 75, 000 gauss.
The most common oxide of vanadium i.e., vanadium pentoxide (V2O5 ) is used as a catalyst in manufacturing sulphuric acid. In biological context, vanadium is a micro-nutrient found naturally in mushroom, shellfish, black pepper, parsley dill, grain and grain products
The world reserves of vanadium were about 19 million tonnes of metal located mainly in China, Russia, South Africa, Australia and the USA and are expected to last till next century at the current rate of consumption. Titaniferous magnetite is the most important source accounting about 85% of current world V2O5 production from which vanadium could be extracted as a by-product of iron

• V : 50% min / 75 % min

6061is aprecipitation-hardenedaluminium alloy, containingmagnesiumandsiliconas its majoralloyingelements. Originally called "Alloy 61S", it was developed in 1935.^[2]It has good mechanical properties, exhibits goodweldability, and is very commonlyextruded(second in popularity only to6063).^[3]It is one of the most common alloys ofaluminumfor general-purpose use.As an importer and exporter of aluminum products, including ingot silver aluminum alloys, Phoolchand Bhagat Singh would likely work closely with aluminum suppliers and manufacturers to ensure that the products they supply meet the specific needs and requirements of their customers. This may include providing customized alloy compositions or sizes to meet the specific needs of a particular application or industry.

Ferroaluminum (FeAl) is a ferroalloy, consisting of iron and aluminium. The metal usually consists of 40% to 60% aluminium and applications of ferroaluminum include the deoxidation of steel, hardfacing applications, reducing agent, thermite reactions, AlNiCo magnets, and alloying additions to welding wires and fluxes.Ferroaluminum (FeAl) is a ferroalloy, consisting of iron and aluminium. The metal usually consists of 40% to 60% aluminium and applications of ferroaluminum include the deoxidation of steel, hardfacing applications, reducing agent, thermite reactions, AlNiCo magnets, and alloying additions to welding wires and fluxes.

Silicon bronze is a type of bronze alloy that contains copper, silicon, and small amounts of other metals such as zinc, tin, and manganese. It is known for its excellent corrosion resistance, high strength, and durability, making it a popular choice for various applications.
Phoolchand Bhagat Singh is an importer and exporter of silicon bronze, among other metals. They offer a range of silicon bronze alloys that are suitable for various applications, including:
C65500: This is a high-silicon bronze alloy that offers excellent corrosion resistance and high strength. It is commonly used in marine applications, such as propellers, pumps, and valves.
C65100: This is a low-silicon bronze alloy that is known for its excellent welding and brazing properties. It is commonly used in the manufacturing of electrical connectors, springs, and wire mesh.

Brass alloys are metals that are made by combining copper with zinc and sometimes other elements to create a new material with specific properties. Brass is a commonly used alloy due to its good strength, corrosion resistance, and malleability, making it a popular choice for use in various applications, including plumbing, architecture, musical instruments, and decorative items.
Common brass alloys include:
Alpha brass: A brass alloy that contains up to 37% zinc. Alpha brass is known for its good corrosion resistance, ductility, and malleability, making it a popular choice for use in plumbing and electrical applications.
Beta brass: A brass alloy that contains 37% to 45% zinc. Beta brass is known for its good strength, wear resistance, and machinability, making it a popular choice for use in gears, valves, and other mechanical components.
Cartridge brass: A brass alloy that contains 70% copper and 30% zinc. Cartridge brass is known for its good formability, corrosion resistance, and low cost, making it a popular choice for use in ammunition casings and other decorative items.
Naval brass: A brass alloy that contains 60% to 70% copper, 2% to 3% tin, and a small amount of zinc. Naval brass is known for its good corrosion resistance in seawater, making it a popular choice for use in marine applications, such as propellers and ship fittings.
Overall, brass alloys are valued for their good strength, corrosion resistance, and malleability, making them a versatile choice for a wide range of applications. However, they can be prone to dezincification, a type of corrosion that occurs when the zinc content in the alloy is selectively removed, leading to weakened mechanical properties. Therefore, it is important to choose the appropriate brass alloy for the specific application to ensure the best performance and longevity.

Cobalt alloys are a group of alloys that contain cobalt as the primary metal. These alloys are known for their high strength, corrosion resistance, and wear resistance, making them ideal for use in a variety of industries.
Phoolchand Bhagat Singh is an importer and exporter of cobalt alloys, among other metals. They offer a range of cobalt alloys that are suitable for various applications, including:
Cobalt-Chromium (Co-Cr) Alloy: This alloy is commonly used in the aerospace industry for its high strength, good wear resistance, and high-temperature performance. It is also used in medical and dental implants.
Cobalt-Nickel-Chromium-Molybdenum (Co-Ni-Cr-Mo) Alloy: This alloy is used in the oil and gas industry for its excellent corrosion resistance in harsh environments, such as offshore drilling.
Cobalt-Based Superalloys: These alloys are used in high-temperature applications, such as gas turbines, jet engines, and nuclear reactors. They offer excellent strength, creep resistance, and thermal stability.
It is important to note that cobalt alloys can be expensive due to the high cost of cobalt, and proper precautions should be taken when handling these materials to avoid exposure to cobalt dust or fumes, which can be toxic.

Chrome alloys, also known as chrome-molybdenum alloys or chromoly, are a group of steel alloys that contain chromium and molybdenum as primary alloying elements. These alloys are known for their high strength, toughness, and resistance to corrosion and wear.

Chromium provides the alloy with its corrosion and oxidation resistance, while molybdenum improves its strength and toughness at high temperatures. Other elements, such as carbon, manganese, and silicon, are also added to the alloy to improve its properties.

Nickel alloys are metals that are made by combining nickel with other elements to create a new material with specific properties. Nickel is a hard, silvery-white metal that is resistant to corrosion and oxidation at high temperatures, making it a popular choice for use in various applications, including aerospace, chemical processing, and nuclear power.
Common nickel alloys include:
Inconel: A family of nickel-based alloys that are known for their high strength and resistance to corrosion and oxidation. Inconel alloys are commonly used in aerospace, chemical processing, and marine applications.
Monel: A family of nickel-copper alloys that are known for their high strength, resistance to corrosion, and good mechanical properties at high temperatures. Monel alloys are commonly used in marine applications, such as propeller shafts, as well as in chemical processing and aerospace.
Hastelloy: A family of nickel-based alloys that are known for their high strength, resistance to corrosion, and good mechanical properties at high temperatures. Hastelloy alloys are commonly used in chemical processing and nuclear power applications.
Nickel-titanium: A type of nickel alloy that is known for its shape memory and superelasticity. Nickel-titanium alloys are commonly used in medical devices, such as orthodontic wires and stents.
While nickel alloys offer many benefits, they can be expensive and difficult to work with due to their high melting points and tendency to harden during machining. However, they are valued for their high strength, resistance to corrosion, and ability to perform well at high temperatures, making them a valuable choice for a wide range of industrial applications.

the nickel aluminium bronzes can be classified as alloys containing 6-13% aluminium and up to 7% iron and 7% nickel. The more common alloys normally contain 3-6% each of these two elements. Manganese up to approximately 1.5% is also added, both as a deoxidant and a strengthening element.

High carbon ferrochrome representsa group of alloys with a chromium content typically between 60% and 70% and a carbon content typically between 4% and 6%. To meet this specification the alloy requires a chromite ore with a high Cr/Fe ratio (>2).

Imported High Carbon Ferrochrome is a type of ferroalloy composed of chromium and iron, with a high carbon content ranging from 6% to 8% by weight. It is primarily used as an additive in the production of stainless steel and other high-performance alloys.

Imported High Carbon Ferrochrome is produced by smelting a mixture of chrome ore, iron ore, and coke or other carbonaceous material in an electric arc furnace. The resulting ferroalloy is then refined to remove impurities and adjust the composition to meet specific customer requirements.

The addition of Imported High Carbon Ferrochrome to steel can improve its strength, hardness, and resistance to wear, corrosion, and high temperatures. It can also improve the high-temperature properties of the steel, such as its resistance to oxidation and scaling, as well as its ability to maintain its mechanical properties at elevated temperatures.

Imported High Carbon Ferrochrome is available in different forms, including lumps, briquettes, and powder, depending on the specific application and customer requirements. The imported variety is sourced from foreign suppliers and is often preferred due to its high quality and consistency.

As an importer and exporter of Nitride Ferro Chrome, Phoolchand Bhagat Singh may provide various services to its customers, such as sourcing, logistics, financing, and quality control. The company may also offer technical support and advice on the use of Nitride Ferro Chrome in different applications.

Aluminum boron alloy is a type of metal alloy that is composed of varying amounts of aluminum and boron. The addition of boron to aluminum can enhance its strength, stiffness, and wear resistance, as well as reduce its coefficient of thermal expansion.

The most common aluminum boron alloy is 2024 aluminum, which contains approximately 4.4% copper, 1.5% magnesium, 0.6% manganese, and 0.15% chromium, in addition to 0.03-0.13% boron. This alloy is often used in aerospace and structural applications due to its high strength-to-weight ratio and excellent fatigue resistance.

Another aluminum boron alloy is 7075 aluminum, which contains approximately 5.6% zinc, 2.5% magnesium, 1.6% copper, and 0.23% chromium, in addition to 0.2% boron. This alloy is also commonly used in aerospace applications due to its high strength and hardness.

Aluminum boron alloys can be produced through various methods, such as powder metallurgy, casting, and extrusion. The properties of the alloy can be further improved through heat treatment and cold working.