Titanium Bar

Why Choose Us

Rich experience
Xiangrun New Material Technology Co., Ltd (XRUN) is part of the Wujio Group, which invested 7.6 Billion RMB of capital in 2016. XRUN currently is the only one whole titanium process industrial chain manufacturer in China who supply titanium and titanium alloy products with excellent quality for aerospace, chemical, semiconductor, medical and other industries.

Professional team
XRUN's team includes a vast array of experts with technical specialism in the titanium industry. Both our main researchers and operators are having years of experience in Titanium industry with high professionalism and expertise.

Complete range of products
XRUN's assets begin with titanium ore, coal mine, and power generation facilities, our main products include titanium sponge, titanium and titanium alloy ingots, forgings, bars, plates, sheets, coils and strips.

One-stop solution
The ambition of the group is to establish XRUN as the industry's leading titanium and titanium alloy manufacturer with the whole process industrial chain. Also We have created the first end-to-end titanium supply chain in China. "Coal-Electricity-Titanium Ore-Titanium Sponge-Titanium Processing Materials-Customer Products".Achieving a seamless flow from raw material, to manufacture, to market.

Titanium Bars

Titanium bars come in various forms, including square, hexagonal, and flat. The different shapes of titanium bars make them easy to store and transport. They are manufactured using forging, rolling, extrusion, casting, and spinning. Though they can be used as structural supports, titanium bars are normally melted down to create other titanium products.

The different shapes of titanium bars are made from pure titanium or its alloys. They have all of the beneficial properties of titanium, which makes them a popular material for use in a wide variety of industries. Common processes used to produce titanium bars include hot forging, hot rolling, extrusion, casting, and spinning. The various manufacturing techniques are used individually or together depending on the desired nature of the titanium bar.

As with many forms of titanium, titanium bars are used in several industrial, medical, and commercial applications. Certain types of titanium bars are used in orthopedic surgery and have different styles of ends to fit the needs of a patient. In many cases, titanium alloy rods are used due to their enhanced strength.

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What Are Titanium Bars Used For

Titanium bar is made from pure titanium or alloys combining other metals, such as aluminium or vanadium. When alloyed the metal is much stronger.
Titanium is an incredibly useful metal that's used by various industries, including automotive, aerospace and architecture. titanium bars are often used in the medical field as they can resist corrosion and are biocompatible – meaning they can join with human bone. Medical professionals and dentists also use surgical instruments that are made from titanium bars.

Medical applications
The type of titanium bar often depends on the severity of injuries and the patient. When replacing broken bones, orthopaedic surgeons usually use titanium bars made up of alloys as they provide great strength and stability.
An expanding titanium bar is used for children's orthopaedics as it can be attached to the joints and stretches with bones as they grow. Expanding rods reduce the need for repeat surgeries. Despite frequently being used for children, they are also an excellent choice for larger bone replacements, i.e. adult leg bones.

Aerospace applications
Renowned for high strength and low density, titanium is often found in the structure and skin of aircraft, amongst other aerospace equipment. titanium bars are used in this industry to ensure equipment is hardwearing, reliable and can withstand extreme temperatures and speeds.

Automotive applications
Supply the automotive industry with titanium bars and exhausts to enhance the performance of vehicles – especially luxury cars and motorbikes. titanium bars help to reduce fuel consumption and improve engine efficiency, as well as minimise noise.

Sport applications
Titanium bars are found in a range of sports equipment, including bicycle frames, golf clubs and hiking equipment. Titanium's low density makes it easier for athletes to carry their equipment with them, whilst making no compromise to performance.

The Properties of Titanium Bars

High strength-to-weight ratio

Titanium is two times stronger than aluminum and 45% lighter than steel with comparable strength.

Resistance to corrosion

Titanium's natural resistance to corrosion allows for applications in harsh environments, including under seawater.

Abundance

Titanium is the 9th most abundant element in the Earth's crust, found in nearly all rocks and sediments.

Biocompatibility

Titanium's inertness inside the human body makes it biocompatible and suitable for medical and dental implants in humans.

Temperature resistance

Titanium has a melting point of 1,670 °C and can withstand temperatures higher and lower than stainless steel and aluminum.

Types of Titanium Bars

Several types of titanium bars are available in the market, each with unique properties. The most common types include the commercially pure titanium bar, which is the most affordable and has excellent corrosion resistance. Another type is the alpha-beta titanium bar, which combines excellent strength and corrosion resistance. The beta titanium bar is also available, which has good welding properties and is used in aerospace applications.

Grade 2 titanium bars
Grade 2 titanium bars are made of commercially pure titanium and are the most widely used type of titanium bar. Grade 2 titanium has good weldability, formability, and corrosion resistance. It is often used in chemical processing and marine applications.

Grade 3 titanium bars
Grade 3 titanium bars are made of commercially pure titanium and are similar to Grade 2 titanium bars in terms of weldability, formability, and corrosion resistance. However, Grade 3 titanium has slightly higher strength and is often used in aerospace applications.

Titanium Grade 5 bars
Titanium Grade 5, or Ti-6Al-4V, is a commonly used titanium alloy. It is composed of 90% titanium, 6% aluminium, and 4% vanadium. One popular form of Titanium Grade 5 is the Titanium Grade 5 Bar. Hot rolling or forging the alloy into a cylindrical shape will manufacture these bars. They are widely used in aerospace, medical, automotive, and marine industries.

Alloyed titanium bars
Alloyed titanium bars are made of an alloy of titanium and another metal, such as aluminium or vanadium. These bars are stronger than CP-grade titanium bars and are often used in high-strength applications such as aircraft construction.

Beta titanium bars
Beta titanium bars are made of an alloy of titanium and other metals, such as molybdenum or zirconium. They have excellent flexibility and can be used in various applications that require high strength and flexibility, such as biomedical implants.

Titanium Grade 7 bar
Titanium Grade 7 bar is another popular form of titanium alloy. Grade 7, also known as Ti-0.2Pd, is a corrosion-resistant alloy containing 99.2% pure titanium and 0.2% palladium. This combination of elements provides Grade 7 with enhanced resistance to corrosion in various environments, including highly oxidizing and reducing conditions.

What Are the Benefits of Titanium Bars

Low density
Titanium bars are remarkably lightweight (approximately 60% lighter than iron) which not only means they are easy to work with but makes them a great choice for aerospace and other high-performance applications where every bit of weight matters.

Strength
Despite being lightweight, titanium is just as strong as steel and can be strengthened by alloying and deformation processing. Thanks to their low density and ability to withstand extreme temperatures, titanium bars are commonly used for aircraft, spacecraft and missiles.

Resistance to corrosion
Whether it's used indoors or outdoors, titanium is a metal that will last several years because a thin layer of oxide forms on the surface and makes it difficult for materials to penetrate. This means titanium bars are ideal for buildings and marine applications.

Biocompatible
Whilst some metals (i.e. iron, steel and aluminium) can be toxic to humans, this isn't the case with titanium. As a result of being biocompatible with human tissues and bones, titanium can be safely inserted into the body – either to strengthen broken bones or for dental implants – without causing an adverse reaction.

Good thermal resistance
When compared with other metals, titanium has a low coefficient of thermal expansion which means it won't contract or expand anywhere near as much when put under extreme pressure. This is why titanium bars are frequently used in the construction industry where a rigid yet lightweight framework is desirable.

High melting point
Titanium bars have an exceptionally high melting point of 1668°C – approximately more than 400°F than steel and 2000°F above aluminium – which makes them suitable for an array of high-temperature applications.

How The Titanium Bars Are Made

Titanium is usually produced from rutile ores, ilmenite ores, and occasionally sphene ores. The Kroll method is used for the entire titanium manufacturing process. First, magnesium is used to heat titanium (IV) chloride. This procedure causes titanium dioxide to combine with chlorine to create titanium tetrachloride. Then, when the tetrachloride reacts with magnesium, any remaining chlorine is removed. When the chlorine is stripped away, A pure metal called a sponge is created. This is the "titanium" that is ready to be formed and shaped for various purposes.

Titanium bars are created through the process of forming and shaping. The sponge may be melted with alloying components like aluminum or vanadium and then formed into bar shapes during the forging process. It can also be processed further to create sheets, which can then be cut into strips and used to create pipes, tubes, or bars. The final shape and form of the titanium bar will depend on its intended use.

How to Cut Titanium Bar

Using titanium rods as an example, the metal is not always easy to cut. With titanium being a reactive metal, its chemical properties change when it's exposed to heat – meaning that the rod needs to be cool cut.
There are many different methods for cutting titanium and these include:

Mechanical cutting
Band sawing
Water jet cutting
Plasma cutting
Basic principles of cutting titanium

The process of cutting titanium requires careful planning and execution. When it comes to machining and cutting titanium – whether it be a titanium bar, rod or plate.
The first thing you need to do is reduce titanium to a porous form. After this, the porous form needs to be melted into an ingot. The ingot is then converted into a general mill product to produce titanium bars, bolts, plates, rods, sheets and tubes.
To cut a titanium bar, low cutting speeds minimise the build-up of heat and excessive cutting speeds can reduce tool life by as much as 80%!
Using a large flow of cutting fluid will increase the cooling effect, allowing you to cut metal more efficiently.

Different Forms of Titanium Bars

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Round bar

Round bars are perfect for machining and are widely used in industries such as aerospace and medical. Their cylindrical shape provides versatility for various applications.

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Square bar

Square bars are chosen for their uniformity and ease of fabrication. They are ideal for constructing frames and structural components where consistency is crucial.

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Flat bar

Flat bars offer a broader surface area and are commonly used in applications like blade manufacture or as structural components where a wider profile is required.

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Hexagonal bar

Hexagonal bars are favored for their unique geometry, making them an excellent choice for fasteners and decorative elements. Their hexagonal shape provides added strength and a distinctive look.

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Our Factory

Xiangrun New Material Technology Co., Ltd (XRUN) is part of the Wujio Group, which invested 7.6 Billion RMB of capital in 2016. The ambition of the group is to establish XRUN as the industry's leading titanium and titanium alloy manufacturer with the whole process industrial chain. Also We have created the first end-to-end titanium supply chain in China. "Coal-Electricity-Titanium Ore-Titanium Sponge-Titanium Processing Materials-Customer Products".Achieving a seamless flow from raw material, to manufacture, to market.
XRUN currently is the only one whole titanium process industrial chain manufacturer in China who supply titanium and titanium alloy products with excellent quality for aerospace, chemical, semiconductor, medical and other industries. Also, we are cooperating with several international well-known companies.
XRUN's assets begin with titanium ore, coal mine, and power generation facilities, our main products include titanium sponge, titanium and titanium alloy ingots, forgings, bars, plates, sheets, coils and strips.
At present, the XRUN has capability of annual output of 30,000 tons titanium sponge,10,000 tons of titanium materials and 10,000 tons of titanium coils&strips.
XRUN's team includes a vast array of experts with technical specialism in the titanium industry. Both our main researchers and operators are having years of experience in Titanium industry with high professionalism and expertise.

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FAQ

Q: Are titanium bars worth it?

A: Titanium is an incredibly stable material to work with and another benefit found is that the set-up with Titanium rod is one and done. Unlike aluminum, Titanium will not grow so there is never a difference from the first bang to the last.

Q: How is titanium bar made?

A: Titanium Grade 5, or Ti-6Al-4V, is a commonly used titanium alloy. It is composed of 90% titanium, 6% aluminium, and 4% vanadium. One popular form of Titanium Grade 5 is the Titanium Grade 5 Bar. Hot rolling or forging the alloy into a cylindrical shape will manufacture these bars.

Q: Can you cut titanium bar?

A: It is possible to bandsaw or nibble titanium with the right equipment, but – depending on how the metal has been treated – it can also be shaped and cut using heat. This may be from oxyacetylene, plasma, or lasers. Water jets are also often used to great effect.

Q: What makes titanium bar so tough?

A: Titanium is an extreme metal ideal for aerospace engineering and medical implants. Its strength comes from its natural ability to resist corrosion and oxidation, meaning that it retains its power even when exposed to extreme temperatures or harsh chemicals.

Q: Are titanium bars good?

Q: What are the 4 types of titanium bar?

A: Titanium Grade 1, Titanium Grade 2 , Titanium Grade 3 and Titanium Grade 4 are considered commercially pure. Microstructurally, they are all alpha-phase alloys. The difference, however, lies in the amount of interstitial elements added to each grade.

Q: What makes titanium bar so tough?

Q: What are the advantages of titanium bars?

A: Low density
Titanium bars are remarkably lightweight (approximately 60% lighter than iron) which not only means they are easy to work with but makes them a great choice for aerospace and other high-performance applications where every bit of weight matters.
Strength
Despite being lightweight, titanium is just as strong as steel and can be strengthened by alloying and deformation processing. Thanks to their low density and ability to withstand extreme temperatures, titanium bars are commonly used for aircraft, spacecraft and missiles.
Resistance to corrosion
Whether it's used indoors or outdoors, titanium is a metal that will last several years because a thin layer of oxide forms on the surface and makes it difficult for materials to penetrate. This means titanium bars are ideal for buildings and marine applications.

Q: Do titanium bars conduct electricity?

A: Titanium is not a good conductor of electricity. If the conductivity of copper is considered to be 100%, titanium would have a conductivity of 3.1%. From this it follows that titanium would not be used where good conductivity is a prime factor.

Q: What strengthens titanium bar?

A: Grade 6 titanium is a titanium alloy containing approximately 5% aluminum, 2.5% tin, and 0.5% iron. The addition of aluminum and tin improves titanium's creep resistance and temperature stability.

Q: Should titanium bars be removed?

A: The shortest answer is: it is not necessary, although there are some exceptions to consider: After a while, titanium integrates seamlessly with the bone, so, strictly speaking, it is not necessary to remove the fixation plates, unless the patient's body has any kind of negative reaction.

Q: Do titanium bars rust?

A: The answer is no, titanium is resistant to rust. This is because when it's exposed to air, it creates a layer that protects it from these things. This layer is called titanium dioxide (TiO2). The layer is very tough and self-healing, making titanium highly resistant to rust in a wide range of environments.

Q: What is the difference between titanium rod and steel rod?

A: Titanium is perfect for circumstances requiring strength and lightness, which is why it's commonly used in high performance automobile and aerospace designs. Steel is a logical choice when only strength is required, but titanium is suitable when both strength and weight are a factor.

Q: What are titanium bars used for?

A: Titanium bars are often used in the medical field as they can resist corrosion and are biocompatible – meaning they can join with human bone. Medical professionals and dentists also use surgical instruments that are made from titanium bars.

Q: Does titanium bar weigh much?

A: Lightweight Nature: Titanium has a relatively low density of approximately 4.5 grams per cubic centimeter (g/cm³).

Q: What is so special about titanium bar?

A: Titanium is two times stronger than aluminum and 45% lighter than steel with comparable strength. Resistance to corrosion: Titanium's natural resistance to corrosion allows for applications in harsh environments, including under seawater.

Q: Are titanium bars strong?

A: Referred to as the commercially pure "workhorse", Grade 2 titanium bars provide useful strength for a vast range of applications. To compare Grade 2 with Grade 1 Titanium, Grade 2 is slightly stronger and offers great weldability, strength and ductility which ultimately makes it a prime choice of industries.

Q: What happens to titanium bar when it gets hot?

A: Because of its high tensile strength and creep resistance, commercially pure titanium can remain stable at temperatures up to approximately 572°F. Compared to other metals, such as aluminum, titanium has low thermal conductivity, which can result in excessive heat build-up.

Q: How long do titanium bars last in the body?

A: Intramedullary rods, pins, and other implants help bones to heal faster by holding things in place while the body heals. They are typically meant to stay in the body forever but there are cases when removing the hardware may be necessary.

Q: How long does it take for titanium bar to oxidize?

A: The oxide film formed on titanium at room temperature immediately after a clean surface is exposed to air is 12-16 A thick. After 70 days it is about 50 A. It continues to grow slowly reaching a thickness of 80-90 A in 545 days and 250 A in four years.

As one of the leading titanium bar manufacturers and suppliers in China, we warmly welcome you to buy or wholesale high-grade titanium bar in stock here from our factory. All our products are with high quality and competitive price.

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