Titanium Sheet

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.

What Is Titanium Sheet

Titanium sheets are advanced materials that play a pivotal role in various industries due to their exceptional properties. Renowned for their lightweight nature, high strength, and corrosion resistance, titanium sheet metal has become indispensable in applications ranging from aerospace engineering to medical implants.

Uses of Titanium Sheet

Aerospace
Whether it's to manufacture boats, aircraft or cars, the titanium sheet is an ideal choice to make. Titanium is typically used to create aeroplane wings, blades, air frames and turbine discs.
Titanium is often found in the structure of an aircraft but can also be used for space travel. One of the main reasons why the titanium sheet is used by the aerospace industry is for its ability to survive at high temperatures and pressures.

Marine
The titanium sheet can also be used by the marine industry. The properties of titanium make it perfect for manufacturing ships, submarines and other watercraft. These all need to be made from a protective, agile material that's reliable, hence why titanium is often so desirable!

Human body
Did you know that the titanium plate is suitable for all kinds of applications- including the human body?
As a biocompatible metal, titanium is handled in large doses but provides minimal impact on the human body. Although it's ingested daily, it's not always absorbed. The medical industry uses the titanium sheet for the human body because it presents a similar density to bone.
You have probably heard that titanium is a metal that can be used for joint replacements, whether it be a hip replacement or a knee replacement. However, the titanium sheet is not only used for surgical implants but dental implants too!
The titanium sheet is used by the medical industry because of its high strength to low weight ratio.

Sporting equipment
A titanium plate can also be used for sporting equipment. An example of how the titanium plate can be used for equipment includes golf club heads/drivers. The lightweight structure of the plate allows golfers (of all abilities) to hit the ball with ease, enhancing their overall performance.
What's more; the titanium plate comes in useful for safety equipment too. As a hardwearing metal, the titanium withstands various impacts and is designed to last, allowing you to sustain the quality of your equipment for longer.

Everyday use
The titanium plate is one of the most versatile metals on today's market. The pigment of the metal can be used to enhance the brightness of products, making them more visually enhancing. They also boost the opacity of inks, paints, plastics and papers.

Titanium Sheet: Titanium Grades

To ensure quality and reliability, it's critical to have a solid understanding of the many titanium grades and alloys available. Five of the most common types include:

Titanium Grade 1 — As the softest, most ductile commercially pure titanium grade, this is particularly easy to work with thanks to its excellent formability. Its high corrosion resistance makes it especially well-suited to marine and chemical processing applications. Grade 1 titanium is also able to withstand high-impact environments.

Titanium Grade 2— The most widely available and versatile pure grade, this type of titanium is slightly stronger than Grade 1 and is often used in medical and architectural applications, as it can be easily formed and welded.

Titanium Grade 3 — While less formable than Grades 1 and 2, commercially pure Grade 3 has higher strength and Grade 3 is used less frequently than Grades 1 and 2 but is ideal for applications requiring moderate strength and high corrosion resistance, such as medical and aerospace projects.

Titanium Grade 4 — The strongest of the commercially pure, unalloyed grades, this material is also highly formable and weldable, as well as corrosion resistant. It's commonly used in industries that require high strength, such as aerospace and medical.

Titanium Grade 5 — Also referred to as Ti6Al4V, Ti-6Al-4V, & or & Ti 6-4, this is the most popular titanium alloy, accounting for half of all titanium use worldwide. Aside from titanium, Grade 5 composed of aluminum, vanadium, iron, and oxygen. High-strength but lightweight, this alloy has good formability, superior toughness, and high corrosion and creep resistance. Extremely versatile, Grade 5 is used for a wide range of applications, from aerospace fasteners to sports equipment.

Titanium Grade 9—This grade, also referred to as Titanium 3Al-2.5V, is exceptionally resistant to corrosion. While not as strong as Grade 5, this material is still useful in aerospace and industrial applications given its light weight and greater resistance to high temperatures.

Titanium Sheet's Life-Saving Qualities

Strength: Few materials can compare to titanium sheet's durability. This is extremely important when it is used for implants, such as hip joints or knee replacements. These inserts must be able to support a person's weight without bending or otherwise deforming. titanium sheet has proven to be just as strong as stainless steel, but with additional benefits the latter cannot provide.

Biocompatibility: Whenever a device is implanted into the body, the body's acceptance of the foreign object is of the highest importance. Materials that do not interact well with the immune system or those that leech toxic substances put patients at severe risk. Fortunately, titanium sheet is exceptionally biocompatible, which means it should not have a negative impact on human tissue.

Weight: Compared to stainless steel and other metals, titanium sheet weighs much less while providing many of the same advantages. This leads to implants that feel more natural to the patient and don't contribute excessive weight that could lead to strain or fatigue.

Flexibility: Although its primary quality is strength, titanium sheet does bring a significant amount of flexibility and elasticity to the table that make it a useful substitute for natural bone. This means replacement titanium sheet components should behave more or less the same as the original bones inside the body.

Osseointegration: Unlike many other materials, no adhesives are required to bond titanium sheet to bones. Its unique ability to bind with the skeletal system helps create a stronger connection. With titanium sheet, patients don't have to worry as much about breakage, and the implants tend to last longer.

MRI-Safe: Because it is non-magnetic, titanium sheet is safe to use around MRI equipment. The powerful magnetic fields that these machines generate could pull stainless steel or other types of implants out of patients' bodies, causing serious injuries. Not so with titanium sheet.

Durability: Naturally resistant to corrosion and regular wear and tear, titanium sheet can last 20 years or longer inside the human body. This means patients should undergo fewer surgeries related to their implants over the course of their lives.

Characteristics of Titanium Sheets

Different Processing Techniques for Titanium Sheets

The Kroll Process
The Kroll process is used to make titanium sheets from raw titanium material.
In the industrial-scale Kroll method, titanium dioxide and chlorine react to create titanium tetrachloride at 800-850 °C in a stainless-steel retort. The titanium tetrachloride is reacted with magnesium to remove the chlorine, leaving behind the pure metal. Leaching or vacuum distillation purifies the porous, metallic titanium sponge. The sponge is compressed, crushed, and melted in a consumable carbon electrode vacuum arc furnace. Under vacuum, the molten ingot is allowed to harden. Titanium is frequently remelted To get rid of inclusions and guarantee homogeneity.
To produce TiCl4, silicon, iron, aluminum, magnesium, and calcium impurities are eliminated using fractional distillation. Then, pure TiCl4 is reduced by molten magnesium between 1073 and 1173 K in an argon environment to create sponge titanium.
The titanium sheets are then produced utilizing three different techniques, resulting in various forms and sizes. Hot rolling, cold rolling, and sintering are processes used to create titanium sheets.

Hot Rolling titanium sheets
The heated metal is passed between two rolls to flatten, extend, decrease the cross-sectional area, and achieve a consistent thickness. The titanium slabs are rolled into black coils of extremely precise thickness and shape. Then they are transformed into white coils by heat treatment, pickling, and finishing in the annealing and pickling facility. Hot rolling can increase ductility, formability, weldability, toughness, strength, vibration, and shock resistance.

Cold Rolling titanium sheets
Hot rolling produces thinner metal strips with good surface quality. Titanium is run through rollers during the cold rolling process at temperatures lower than its recrystallization temperature. As a result, titanium's yield strength and hardness increase through compression and squeezing.

A Guide to Choosing the Best Titanium Sheets for Your Project

1. Determine the size and thickness

Choosing the size and thickness of your titanium sheet depends on your specific project requirements. Larger plates are typically more expensive and challenging to handle. So, it's crucial to consider your project's dimensions before selecting the plate's size. Thickness selection, on the other hand, depends on the stress on the plate. For instance, a thicker titanium sheet would be appropriate if the plate is used in high-stress applications. Thickness selection also depends on the machining process. Thinner plates are easier to drill, cut, and form into smaller parts, while thicker plates may require specialized cutting equipment.

2. Check the specifications

When choosing the best titanium sheet for your project, it's imperative to check its specifications. Typically, specifications cover the standard requirements for titanium plates. If you are using the plate for aerospace or marine applications, aerospace material specifications (AMS) are commonly used. The AMS standards have stricter requirements and are more specific, ensuring that the plate you select meets the high standards for these industries.

3. Evaluate the application

The successful selection of titanium sheets depends on the intended application. For instance, if your project involves high-temperature applications, it's advisable to select titanium sheet with higher thermal stability to withstand the high temperatures. A high-quality plate with tight dimensional tolerances can help achieve the required accuracy if the intended application requires excellent precision.

4. Determine the quantity required

When selecting titanium sheets, you must determine the required quantity for your project. The cost per plate decreases as the quantity increases. Therefore, consider buying the plates in bulk for the most cost-effective prices. Buying in bulk also ensures you have enough material to complete your project without delays.

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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: What is titanium sheet?

A: Titanium sheets are advanced materials that play a pivotal role in various industries due to their exceptional properties. Renowned for their lightweight nature, high strength, and corrosion resistance, titanium sheet metal has become indispensable in applications ranging from aerospace engineering to medical implants.

Q: What happens to titanium sheet 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: What is so special about titanium sheet?

A: Titanium is highly resistant to chemical attack and has the highest strength to weight ratio of any metal. These unique properties make Titanium suitable for a wide range of applications.

Q: How strong is a titanium sheet?

A: The common Ti-6Al-4V alloy (per the AMS 4911 specification) has a tensile strength of about 130,000 to 140,000psi (around 900 megapascals if you prefer metric). Commercially pure titanium grades, meanwhile, are around 25,000psi (175 MPa).

Q: How hard is it to bend titanium sheet?

A: Without a specialized titanium sheet bending machine, it's almost impossible. Even with manual tube benders, the process can take a lot of effort to bend/form even a thin titanium sheet. Even hot bending requires a certain degree of effort and lots of time.

Q: What are the advantages of titanium sheets?

A: Corrosion resistance
The most appealing aspect of titanium sheet is its remarkable resistance to corrosion. When exposed to air, titanium sheet forms a thin, impermeable layer of oxide on its surface. Furthermore, the oxide layer is naturally robust and highly resistant to practically all major corrosion causes, making titanium sheet an excellent choice for any outdoor application.
Unusually high melting point
titanium sheet has a high melting point. titanium sheet's melting point of roughly 1668 °C makes it an excellent choice for high-temperature applications such as turbine jet engines.
Non-toxic element
titanium sheet, unlike most other metals, is not hazardous to humans or animals. This is why titanium sheet is widely used in the medical industry. titanium sheet is the material of choice for medical practitioners for anything from bone strengthening to dental braces.

Q: What are the factors that affect the corrosion resistance of titanium sheet?

A: Environmental conditions
Where you use titanium makes a big difference in how well it resists rust. In places like the ocean or factories, which are more prone to corrosion, you might need to take extra steps to make sure your titanium lasts. Things like temperature, humidity, pH levels, and chemicals can all impact how well titanium holds up in these conditions.
Surface finish
The finish on titanium products can also affect how well they resist rust. A smooth, polished surface will have fewer cracks and blemishes that can start rusting. It's important to use the right surface preparation and finishing techniques to get the most rust-proofing out of your titanium.

Q: What does titanium sheet do in the human body?

A: Titanium can form a thermal isolation layer in the interior of the human body,which can reduce heat dissipation and promote tissue repair or regeneration of the body.

Q: Can you bend a titanium sheet?

A: The difficulty of bending a pure titanium sheet or alloyed grades of titanium depends on the method you employ for the bending process. One of the challenges associated with bending titanium is its high modulus of elasticity. Its low uniform elongation makes it difficult to machine and form.

Q: How long does it take for titanium sheet 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.

Q: Do titanium sheets 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 are titanium sheet applications?

A: Due to the unique characteristics that set titanium apart, titanium tubing can be used, as mentioned earlier in extreme applications. In the aerospace industry, the metals used have to withstand immense amounts of pressure and resist highly corrosive liquids and heats within an engine, but at the same time be light enough to fly. Because of this, titanium tubing is the perfect option for components in the aerospace industry. It is also used in the marine industry, another environment where the metal has to withstand corrosive liquids and pressure, but still be light. Other applications include, but are not limited to, the chemical and petrochemical industry, the medical industry and the nuclear industry.

Q: Is titanium sheet stronger than human bone?

A: Putting in some typical dimensions and material properties we find that the stresses in a bone made from titanium alloy, for example, would be about 1.3 times higher than in a bone of the same weight, made from bone. But the titanium alloy is 5 times stronger so obviously its safety factor is much higher.

Q: Will titanium sheet rust?

A: Pure titanium does not rust or tarnish like iron metals, allowing for prolonged exposure to water without the worry. In addition, titanium is even fully resistant against the corrosion effects of saltwater. This resistance is from a thin oxide film that covers the surface of pure titanium when exposed to oxygen.

Q: Is titanium sheet magnetic?

A: While it has many desirable properties, one question that often arises is whether or not titanium is magnetic. The short answer is no, titanium is not magnetic. This is because titanium has a crystalline structure with no unpaired electrons, which are required for a material to exhibit magnetic properties.

Q: How strong is a sheet of titanium?

A: Grade 2 is the commercially pure titanium used in most of the chemical processing plants and is cold formable. Grade 2 plate and sheet can have ultimate tensile strength at and above 40,000 psi.

Q: Does titanium sheet break down over time?

A: Titanium undergoes time-dependent degradation in biological capability, or "biological aging". It is unknown whether the biological aging of titanium occurs beyond four weeks and whether age-related changes are definitely associated with surface hydrophilicity.

Q: Is titanium sheet bulletproof?

A: Pure titanium isn't bulletproof, but certain titanium alloys are. Each grade of titanium has its own benefits and main uses, making it important to do some research or ask an expert. Different jobs and project outcomes will require different grades of titanium.

Q: What is the tolerance of titanium sheet?

A: Titanium plate, when specified to have "Special Flatness", shall be creep flattened in a stress- free condition with deviation from flat not exceeding 0.060 inch in any 12 inches, with total deviation not exceeding 0.125 inch.

Q: At what temperature does titanium sheet lose strength?

A: However, titanium loses strength when heated above 430 °C (806 °F). Titanium is not as hard as some grades of heat-treated steel; it is non-magnetic and a poor conductor of heat and electricity. Machining requires precautions, because the material can gall unless sharp tools and proper cooling methods are used.

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

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