Titanium Tubes

Titanium Tubes

Ashapura Steel’s Titanium pipe and pipe fittings are designed to meet the highest standards of performance and quality. Constructed from premium titanium, they offer exceptional corrosion resistance, low density, and superior mechanical properties. The pipes are available in various sizes and configurations to suit diverse plumbing and industrial applications, especially those involving corrosive environments and high-temperature conditions.

Our comprehensive range of Titanium pipe fittings ensures tight and secure connections, allowing for easy installation and maintenance. Whether for chemical processing, power generation, or offshore structures, our Titanium pipe and pipe fittings provide reliability and durability.

Seamless vs. Welded Titanium Tubes

Titanium tubes are a popular choice due to their high strength and corrosion resistance. However, there are different types of titanium tubes available, each with their own unique properties and characteristics. One important factor to consider when selecting a titanium tube for fluid transportation is whether to choose a seamless or welded tube.

Seamless titanium tubes are made from a solid piece of titanium that is heated and then rolled into a tube shape. This process results in a tube that has no seams or joints, making it stronger and more resistant to leaks than welded tubes. Seamless tubes also have smoother internal surfaces, which can reduce the risk of turbulence and improve fluid flow.

On the other hand, welded titanium tubes are made by welding together two or more pieces of titanium using heat and pressure. While this method can be more cost-effective than producing seamless tubes, welded tubes may have reduced strength due to the welding process itself. The welds themselves can be susceptible to corrosion if not properly treated.

Titanium Grade 2 vs. Grade 5

Another important consideration when choosing a titanium tube for fluid transportation is the grade of titanium used in its construction. Titanium Grade 2 (also known as Ti-2) is one of the most commonly used grades for fluid transportation applications due to its excellent corrosion resistance and moderate strength.

Ti-2 contains small amounts of iron and oxygen, which give it superior resistance to corrosion in many environments including seawater and acidic solutions. It also has good ductility and formability, making it easy to work with during fabrication.

For applications where higher strength is required, Titanium Grade 5 (Ti-5) may be a better choice. Also known as Ti-6Al-4V, this alloy contains aluminum and vanadium in addition to titanium which gives it significantly higher strength than Ti-2 while still maintaining good corrosion resistance.
Ti-5 is often used in high-pressure fluid transportation systems where its strength is needed to withstand the pressure and stress of the application. However, it is important to note that Ti-5 can be more difficult to work with during fabrication due to its higher strength and hardness.

Other Titanium Alloys

While Grade 2 and Grade 5 titanium pipes are the most commonly used types of While Ti-2 and Ti-5 are the most commonly used titanium alloys for fluid transportation, there are other grades available that may be suitable depending on the specific requirements of the application. For example, Titanium Grade 7 (Ti-7) contains small amounts of palladium which gives it superior resistance to corrosion in reducing environments such as sulfuric acid.

Titanium Grade 9 (Ti-9) contains small amounts of molybdenum and chromium which give it good corrosion resistance in seawater and other chloride-containing solutions. Both Ti-7 and Ti-9 have lower strength than Ti-2 or Ti-5 but may still be suitable for certain applications where corrosion resistance is a top priority.

Benefits of Different Types of Titanium Tubes

Seamless Titanium Tubes

Seamless titanium tubes are known for their high strength and corrosion resistance, making them the ideal choice for applications in the aerospace and marine industries. These tubes are manufactured by piercing a solid titanium billet to form a hollow tube, which is then further processed to achieve the desired dimensions and surface finish.

One of the main benefits of seamless titanium tubes is their superior strength-to-weight ratio. This means that they can withstand high stresses and loads while remaining lightweight, making them suitable for use in aircraft frames, landing gear components, and other critical structures. Seamless tubes have excellent corrosion resistance properties, which make them resistant to damage from saltwater exposure and other harsh environmental conditions.

Another advantage of seamless titanium tubes is their ability to be formed into complex shapes with tight tolerances. This makes them ideal for use in applications where precise dimensions are required, such as turbine blades or exhaust systems. Furthermore, because seamless tubes have no welded seams or joints, they offer improved reliability compared to welded alternatives.

Welded Titanium Tubes

While seamless titanium tubes offer many advantages in terms of strength and corrosion resistance, they can be more expensive to manufacture than welded alternatives. Welded titanium tubes are made by joining two or more pieces of titanium together using welding techniques such as TIG (tungsten inert gas) or laser welding.

One of the primary benefits of welded titanium tubes is their cost-effectiveness. Because they do not require specialized equipment or processes like seamless tubing does, they can be produced at a lower cost per unit. This makes them an attractive option for industrial applications such as heat exchangers or chemical processing equipment.

In addition to being more affordable than seamless tubing options, welded titanium tubes are also easier to manufacture on a large scale. They can be produced quickly using automated welding machines that require minimal operator intervention. This makes them an ideal choice for applications where high volumes of tubing are required.

Titanium Alloy Tubes

Titanium alloys, such as Ti-6Al-4V, offer improved mechanical properties compared to pure titanium tubes. These alloys are made by adding small amounts of other metals such as aluminum and vanadium to the titanium base material.

One of the primary advantages of titanium alloy tubes is their higher strength-to-weight ratio. This means that they can withstand higher stresses and loads while remaining lightweight, making them suitable for use in aerospace and defense applications. Titanium alloys offer better fatigue resistance than pure titanium, which means they can withstand repeated loading cycles without failing.

Another benefit of titanium alloy tubes is their improved corrosion resistance properties. Because they contain small amounts of other metals, they are less susceptible to damage from saltwater exposure or other harsh environmental conditions. This makes them ideal for use in marine applications or offshore oil rigs.

Thin-Walled Titanium Tubes

Thin-walled titanium tubes are characterized by their low weight and excellent thermal conductivity properties. These tubes have a wall thickness that is typically less than 1mm, which makes them much lighter than traditional tubing options.

One of the main benefits of thin-walled titanium tubes is their ability to transfer heat efficiently. They have a high thermal conductivity coefficient, which means that they can quickly transfer heat from one end of the tube to the other. This makes them well-suited for use in heat transfer applications such as air conditioning and refrigeration systems.

Another advantage of thin-walled titanium tubes is their low weight. Because they have a thinner wall thickness than traditional tubing options, they weigh significantly less while still maintaining structural integrity. This makes them an attractive option for applications where weight reduction is critical, such as aerospace or automotive components.

Titanium Tubes Specifications

SpecificationsASTM A387 / ASME SA387
Thickness1mm-300mm
Width1000mm, 1219mm, 1500mm, 1800mm, 2000mm, 2500mm, 3000mm, 3500mm, 4050mm etc
Length2000mm, 2440mm, 3000mm, 5800mm, 6000mm, 12000mm, 15000mm etc
Surface2B, 2D, BA, NO.1, NO.4, NO.8, 8K, mirror, checkered, embossed, hair line, sand blast, Brush, etching Manufacturer and Supplier
FinishHot rolled plate (HR), Cold rolled sheet (CR)

Titanium Tube Size Chart

GradesCMnPSSICrMo
ASTM A387 Grade 50.15 max0.3 – 0.60.0350.030.5 max4.00 – 6.000.45 – 0.65
ASTM A387 Grade90.15 max0.30 – 0.60.030.031.0 max8.0 – 10.00.9 – 1.1
ASTM A387 Grade 110.05 – 0.170.4 – 0.650.0350.0350.5 – 0.801.0 – 1.50.45 – 0.65
ASTM A387 Grade 120.05 – 0.170.4 – 0.650.0350.0350.15 – 0.40.8 – 1.150.45 – 0.6
ASTM A387 Grade 220.05 – 0.150.3 – 0.60.0350.0350.5 max2.0 – 2.50.9 – 1.1

Titanium Tubes Weight

Plate Surface finishGauge (in)Width (max in)
2B – Cold rolled, heat treated, pickled, skin passed Plate10–2472*
2D – Cold rolled, heat treated, pickled plate12–2460
BA Mexinox only18–2848
Polished plate (not brushed)11–2460
Temper rolled plate Mexinox only13–2948

Industrial Application of Super Duplex Stainless Steel Sheets

Defence & Aerospace

Defence & Aerospace

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Oil/Gas

Oil/Gas

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Speciality Valves & Vacuum

Speciality Valves & Vacuum

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Precision Components

Precision Components

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FAQ

1)What is the main source of titanium?

The primary source of titanium is the mineral ilmenite, which contains titanium dioxide (TiO2). Ilmenite is commonly found in beach sands, as well as in some igneous rocks and sediments. It serves as the primary raw material for the production of titanium metal and its various alloys.

2)Is titanium mined in India?

Yes, titanium is mined in India. India has significant titanium reserves and is one of the countries actively engaged in titanium mining and production.Titanium extracted from these mines is utilized in various industrial applications, including aerospace, chemical processing, and the production of titanium alloys, owing to its excellent strength-to-weight ratio and corrosion resistance.

3)Is titanium in high demand?

Yes, titanium is in high demand due to its exceptional properties, including its strength-to-weight ratio, corrosion resistance, and biocompatibility. It is extensively used in industries such as aerospace, medical implants, defense, and chemical processing, all of which contribute to its continued high demand.

4)Which industry uses the most titanium?

the aerospace and defense industry in Maharashtra was one of the prominent sectors using titanium. Titanium’s exceptional strength-to-weight ratio and corrosion resistance make it highly valuable for manufacturing aircraft components, particularly in engines and structural parts. However, the usage of titanium can vary, and other industries in Maharashtra may also employ it for specialized applications

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