Ferrotitanium


We have obtained a number of patented technologies, including invention patents, design, CE certification, utility model and other certificates. We conduct 100% inspection on key points of the product to ensure the stability and reliability of product quality.

We have 10 years of production experience, and all products can be customized OEM and ODM. And we have a full set of modern production equipment, two large production bases such as hydrometallurgy, two key laboratories, and a metallurgical materials testing center with dozens of senior researchers.

  • Ferro Titanium
    Ferrotitanium je slitina železa složená z titanu a železa, občas obsahující stopová množství uhlíku.
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  • Ferro titan 30
    Ferrotitanové (FeTi) slitiny se běžně používají jako přísady při výrobě oceli a litiny.
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  • ferro titan 40
    Ferrotitanium je slitina železa, slitina železa a titanu, která obsahuje 10-20 % železa, 45-75 % titanu a někdy i malé množství uhlíku.
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  • Ferro titan 70
    Suroviny pro průmyslovou výrobu ferrotitanu zahrnují ilmenitový koncentrát (Fe-TiO3), rutil (TiO2), oxid titaničitý (TiO2) a kovový šrot titanu (Ti, Ti-V-Al atd.), kromě kovového šrotu titanu...
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  • Ferro Titanium Prášek
    Titan je nový typ materiálu s výhodami nízké hustoty, vysoké měrné pevnosti, tepelné odolnosti a odolnosti proti korozi. Titanový prášek je široce používán. Titanový prášek má různé použití podle...
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  • Titanový kovový prášek
    Telefon: +8615896822096
    Whatsapp: +8615896822096
    Email: info@zaferroalloy.com
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  • Titanový prášek vysoké čistoty
    Telefon: +8615896822096
    Whatsapp: +8615896822096
    Email: info@zaferroalloy.com
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  • Ferro Titanium 70 Metal Reunt
    Ferro titanium 70 metal lump is used as deoxidizer, desulfurizer, degasser and alloying agent. In the process of steel-making, as alloy elements, it can refine the structure and grain, fix the gap...
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  • Ocel výroba 70% ferro titan
    Vytváření oceli 70% ferro titanu se používá jako deoxidizer, odsulfurizér, odpružení a legovací činidlo. V procesu výroby oceli jako prvků slitiny může zdokonalovat strukturu a zrno, opravit prvky...
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  • Super kvalitní Ferro Titanium hrudku
    Super kvalitní Ferro Titanium Reunt se používá jako deoxidizer, odsulfurizér, degasser a legovací činidlo. V procesu výroby oceli jako prvků slitiny může zdokonalovat strukturu a zrno, opravit...
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  • Ferro Titanium z lehké slitiny/blok
    Ferro Titanium slitiny prášek/blok se používá jako deoxidizer, odsulfurizér, odpružení a legovací činidlo. V procesu výroby oceli, jako prvků slitiny, může zdokonalovat strukturu a zrno, opravit...
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  • Ferrotitanium slitiny titanium-železo
    Ferrotitanium titanium-iron se používá jako deoxidizér, odsulfurizér, degasser a legovací činidlo . V procesu výroby oceli, jako prvky slitiny, může být zdokonaleno strukturu a zrna, fixovat prvky...
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Ferrovanadium 50

 

Ferrotitanium is an alloy made of iron and titanium, usually in the ratio of 70:30 or 50:50.It is commonly used as a deoxidizer to improve the strength and durability of various metals, including steel. The addition of titanium to iron helps to improve its resistance to corrosion and oxidation at high temperatures.

 

 


Ferrotitanium contains up to 30% titanium, which can react with oxygen in the air to form a titanium oxide film, thus providing a certain protective effect. Therefore, Ferrotitanium can maintain good stability in highly corrosive media such as acids, alkalis, and salts.

 
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Ferrotitanium can maintain its stability in high temperature environments and will not oxidize as the temperature increases. Generally, titanium-iron alloys can show good oxidation resistance below 1000 degree . This makes it particularly suitable for high-temperature equipment manufacturing.

 
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The density of titanium is 4.5g/cm³, which is only half that of iron. Therefore, Ferrotitanium has a lower density and contains titanium, which can improve its strength. This makes Ferrotitanium an excellent lightweight yet high-strength material.

 
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Ferrotitanium has good high-temperature stability and can operate in high-temperature environments for a long time without being affected. At the same time, it is not susceptible to deformation and melting at high temperatures.

Quality Ferro Vanadium Blocks Of Various Sizes

 

 

Industrial Ferrovanadium 50

 

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Titanium 70

FeTi70 is a ferrotitanium containing 70% titanium and 30% iron. It is widely used as deoxidizer and alloying agent in the steel industry. It increases the strength and ductility of steel and reduces its brittleness and hardenability. FeTi70 also enhances the corrosion resistance of stainless steel and improves its weldability. It is also used in the manufacture of welding electrodes, flux-cored wire and powder metallurgy.

FeV Alloy 50

 

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Titanium 30

FeTi30 is a ferrotitanium containing 30% titanium and 70% iron. It is commonly used as a reducing agent in the chemical industry, especially in the production of titanium dioxide. FeTi30 reacts with oxides and reduces them to their respective metals, such as reducing titanium dioxide to titanium metal. It is also used in the production of ferrosilicon, ferrochromium and other alloys.

FeV Alloy 50

 

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Titanium 20

FeTi20 is a ferrotitanium containing 20% titanium and 80% iron. It is used in the production of titanium alloys for use in the aerospace and automotive industries. FeTi20 improves the high-temperature strength and corrosion resistance of titanium alloys and reduces their thermal expansion and weight. It also enhances the ductility and toughness of titanium alloys, allowing them to withstand extreme conditions.

Industrial Ferrovanadium 50

 

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Titanium 40

FeTi40 is a ferrotitanium containing 40% titanium and 60% iron. It is used in the production of iron-titanium alloys for use in the construction industry. FeTi40 improves the strength and corrosion resistance of iron-titanium alloys and reduces their brittleness and thermal expansion. It is also used in the production of welding consumables such as welding rods and wires.

 

 
 
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Once the metal is clean, it's time to melt it. The metal is placed in the furnace and heated to about 1,800 degree (3,272 degree F). It is important to ensure that the metal is heated evenly to prevent hot spots. Once the metal is melted, titanium is added to the furnace, making sure the ratio of titanium to iron is correct.

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FeV Alloy 50


Ferrous titanium is susceptible to moisture, which can lead to rust and corrosion. Therefore, it is important to store it in a dry place or use moisture-absorbent materials such as silica gel to keep it dry.

 

Industrial Ferrovanadium 50
Iron Vanadium 50
Quality Ferrovanadium Blocks Of Various Sizes
FeV Alloy 50


There are different grades of ferrotitanium with different titanium content. Titanium content ranges from 20% to 75%. It is crucial to determine the required titanium content based on the specific application and steel production process. For example, if a high-strength steel is required, ferrotitanium with a high titanium content is preferred. On the other hand, if the application requires excellent corrosion resistance, ferrotitanium with low titanium content is recommended.



Ferrotitanium is available in a variety of particle sizes, ranging from 3 mm to 150 mm. Particle size affects melting and dissolution rates in steel production. Therefore, it is crucial to evaluate the grain size and select the appropriate one based on the steel production requirements. For example, if rapid melting or dissolution is required, smaller particle sizes are preferred.


 

 

 

 
 


Ferrotitanium is often used as an additive in steel production to enhance the mechanical and chemical properties of steel. It improves the corrosion resistance, tensile strength and toughness of steel, making it ideal for high-performance applications such as aerospace parts, automotive and construction materials.

 
 


Ferrotitanium is also used as a welding rod or filler material in welding and manufacturing applications. Its high melting point and low thermal conductivity make it an ideal material for joining other metals in high-temperature applications while maintaining the structural integrity of the joint.

 
 


 
 


Ferrotitanium is widely used in the aerospace industry to produce lightweight and high-strength components in aircraft, missiles, and spacecraft. Its unique combination of strength, lightness and corrosion resistance makes it ideal for use in the harsh environments found in space applications.

 
 


 

 

 

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A: Ferrotitanium is an alloy of iron and titanium with a high titanium content (typically between 10% and 75%). It is primarily used in the production of steel and stainless steel to add strength, durability, and corrosion resistance. It can also be used as a deoxidizer in the production of cast iron and other metal alloys. Ferrotitanium is made by smelting a mixture of iron ore, titanium dioxide, and carbon in a blast furnace or electric arc furnace.

A: Ferrotitanium is produced by mixing titanium scrap (usually titanium sponge, chips, or turnings) with iron and other metallic elements, such as aluminum, silicon, and magnesium. The mixture is then placed in an electric arc furnace where it is heated to high temperatures, causing the metals to melt and react with each other. The resulting product is a ferrotitanium alloy with a titanium content ranging from 10-75%, depending on the desired composition. The alloy is then cooled, crushed into small pieces, and packaged for shipment to customers.

A: Ferrotitanium is an alloy of iron and titanium. Its physical properties include: The density of ferrotitanium ranges from 3.4 to 4.0 g/cm3, depending on the percentage of titanium in the alloy. and ferrotitanium has a high melting point of about 2,500 degree (4,532 degree F). Finally, ferrotitanium is typically dark gray in color, but the exact color may vary depending on the percentage of titanium in the alloy.

A: However, if iron and titanium are inhaled or ingested in large amounts or for a long time, it can cause health hazards. Ferrous titanium dust or fumes can irritate the skin, eyes, nose and throat and may cause coughing, wheezing and shortness of breath. Additionally, ferrotitanium may contain small amounts of impurities, such as iron and aluminum, which can be harmful to health if inhaled or ingested in large amounts. Proper safety precautions should be taken when working with ferrous titanium, including wearing protective equipment such as gloves, goggles, and respirators, and working in a well-ventilated area.

A: Ferrotitanium can be shipped in bulk bags made of woven polypropylene, holding up to 1 ton of material. These bags are durable and can be reused for future shipments. Secondly, ferrotitanium can be stored in steel drums, which can hold up to 250 kilograms of material. This method is useful for smaller shipments and can be easily loaded onto a truck or container. Finally, ferrotitanium can be shipped on pallets, which can hold up to 1 ton of material. The pallets are wrapped in plastic to protect the material from moisture and damage during shipping.

A: Ferro-titanium processing technology includes: reduction process: ferro-titanium is produced by reducing titanium ore and scrap iron or scrap steel in an electric furnace. Alloying process: Adding ferrotitanium to other metals, such as steel, to improve their properties. Crushing and Grinding: Ferrotitanium is crushed and ground into small pieces to improve its handling and ensure even distribution. Screening and sorting: Screen and sort the crushed ferrotitanium to separate particles of different sizes. Packaging: Ferrotitanium is packed in airtight containers to prevent oxidation and ensure long-term storage.

A: According to a report from Allied Market Research, the global ferrotitanium market size was US$3.7887 billion in 2019 and is expected to reach US$4.3954 billion by 2027, with a compound annual growth rate of 2.1% from 2020 to 2027. This growth is attributed to rising demand from various end-use industries such as aerospace, automotive and chemicals.

A: Ferrotitanium is an alloy composed of iron and titanium that is used as an additive in the steel industry. It helps to increase the strength and durability of steel products. Ferrotitanium can also improve the weldability of steel by reducing the formation of oxygen, nitrogen, and other harmful gases during welding. In addition, ferrotitanium can improve the resistance of steel to corrosion and oxidation, making it a valuable material for a wide range of applications in various industries, including aerospace, automotive, construction, and infrastructure. Overall, the use of ferrotitanium in the steel industry helps to produce high-quality steel products with improved properties, resulting in increased performance and longevity.

A: Rising demand from aerospace and automotive industries: Ferrotitanium is widely used in the aerospace and automotive sectors due to its lightweight and high-strength properties. Therefore, the growing demand from these industries globally is likely to drive the growth of the ferrotitanium market.

A: Ferrotitanium is used in the aerospace industry as an alloying agent to enhance the mechanical properties and reduce the weight of parts and components used in aircraft, rockets, and satellites. It is added to other metals, such as aluminum, titanium, and steel, during the manufacturing process to improve their strength, hardness, corrosion resistance, and high-temperature performance. Ferrotitanium is also used for welding and brazing applications in aerospace, as it can form strong bonds between dissimilar metals. Overall, the use of ferrotitanium in the aerospace industry helps to create more efficient and reliable aircraft and spacecraft that can withstand extreme conditions and perform better.