Material Grade: Gr1, UNS R50250, T35

Standard Specification: ASTM B265, ASTM F67
Chemical Components(wt%): 

Mechanical Performances(at room temperature)

Application Fields:

Titanium strips are widely used for the manufacture of heat exchanger welded tubes, which are primarily applied in coastal power plants. They can also be used as clad metals in corrosion resistant applications. Titanium foils can be used for surgical implant field as well as the hi-fi equipment.

Grade Alias: Gr2, Grade2, UNS R50400, EN 10204.31, T40
Relevant Standard: ASTM B265, ASTM F67

Description: Titanium Grade 2, This is a non-alloyed, medium strength titanium product. This grade is used in airframes, aircraft engines, and marine equipment. This grade features good weldability and corrosion resistance. Grade 2 Titanium plates is a two phase alpha and beta grade of titanium and is the most widely used of all the titanium grades. Grade 2 Titanium sheets is the most commonly used alloy, which is significantly stronger than other commercially pure titanium whilst still retaining the same stiffness and thermal properties (excluding thermal conductivity). 
Chemical Components(wt%)

Mechanical Performances

Application Fields:

‌Titanium stip foil is a strong material made of titanium, which has high strength, low density and good corrosion resistance. It is widely used in aerospace, medical equipment, chemical equipment, marine engineering and other fields. ‌ The main features of titanium rod include high strength, low density, excellent corrosion resistance and biocompatibility. It can play an important role in various applications, especially maintaining stable performance under high temperature and high pressure environment. ‌

Grade Alias: 6-4 Titanium, 6-4, Ti 6-4; Titanium Grade 5; Titanium 6AL4V, TA6V
Standard Specification: ASTM B265, ASTM F1472, AMS 4911

Description: Ti-6Al-4V, Titanium Grade 5 alloy (UNSR56400) is the most widely used titanium grade. It is a two phase α+βtitanium alloy, with aluminum as the alpha stabilizer and vanadium asthe beta stabilizer. This high-strength alloy can be used at cryogenictemperatures to about 800°F (427°C). Ti-6Al-4V, Grade 5 alloy is used in the annealed condition and in the solution treated and aged condition.
Chemical Components(wt%)

Mechanical Performances

Application Fields:

∗Aerospace Industry;

∗Plant and mechanical engineering;
∗Energy technology (wind, water and nuclear energy);
∗Gas turbines;
∗Ultrasound technology (sonotrodes);
∗Sports accessories (boats, bicycles, mountaineering equipment, etc.).
Titanium Grade 5 Characteristics:

∗Good strength, toughness and ductility;
∗Excellent fatigue strength even under humid conditions;
∗Easy to weld, hot form and machine;
∗Very good corrosion properties;
∗Upper application temperature of approx. 400 ° C.

Grade Synonym: Gr9, Grade9, UNS R56320, Ti 3Al2.5V, DIN 3.7195
Standard Specification: ASTM B265

Description: Grade 9 titanium is a high-strength, low-density titanium alloy that has numerous applications in various industries. It is known for its excellent strength-to-weight ratio and corrosion resistance, making it a popular choice for the automotive, aerospace, medical, and sporting goods industries. Titanium Grade 9's mechanical properties offer much more strength than commercially pure titanium. One of the main benefits of this titanium alloy with small percentages of aluminum is that it can be cold worked, resulting in good ductility, moderately high strength, and excellent resistance to corrosion.
Chemical Components(wt%)

Mechanical Performances

Application Fields:

Titanium has high tensile strength, which gives it the high fatigue strength that provides long-term durability for custom bicycles as an example. Titanium can also take an impact without damaging the inherent structure of the tubes so the use of titanium ensures the bicycle will last a lifetime essentially.A well-designed titanium frameset will ensure a more comfortable ride over a variety of road surfaces according to experts. 

A titanium bicycle frame with Grade 9 titanium can be welded in relatively unlimited ways, giving the fabricator flexibility to make a completely custom bicycle with for example a longer head tube or shorter reach. However, working with titanium requires a special skill level to weld and design. A well-made titanium frame is tough, durable, and will stand up well to corrosion. Titanium frames are also light, which makes it the ultimate road bike material. The one drawback for Grade 9 titanium across all industry applications can be cost. The material itself is ounce-to-ounce more costly than all other frame materials.