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ASTMB363TitaniumFittings(Ti.Gr1,Gr2,Gr5,Gr7,Gr12)
Titanium fittings
Titanium alloy
Titanium Butt-welded Elbow
Type: Titanium Pipe fittings with butt-welding ends are including:
titanium elbows long radius
titanium elbows short radius
90 degree bending titanium elbows
45 degree bending titanium elbows
titanium straight tees
titanium reducing tees
titanium concentric reducers
titanium eccentric reducers
titanium lap-joint stub ends
titanium caps
ASTM B363 WPT-1, WPT-2, WPT-5, WPT-7, WPT-12
Dimension: ANSI B16.9/ASME B16.9
Size: NPS: 1/2~48 inches
WT: SCH5S~SCH160
Standard: ANSI B16.9, ASTM B363
Material: Titanium Gr1 (3.7025), Gr2 (3.7035), Gr7 (3.7235), Gr12 (3.7105), Nickel UNS N02200 (2.4066), Zirconium
Test: PT, RT, PMI
Certificate: EN 10204-3.1
Applications: petrochemical, chemical, vessels, machinery etc
Titanium is a unique and highly valued material due to its exceptional properties. Here are some key features and characteristics of titanium:
1. High strength-to-weight ratio: Titanium has a remarkably high strength-to-weight ratio, making it one of the strongest and lightest structural metals available. It is about 45% lighter than steel but has comparable strength.
2. Excellent corrosion resistance: Titanium exhibits excellent resistance to corrosion, especially in environments such as seawater, chemical solutions, and oxidizing agents. Its corrosionresistanceis attributedto theformation of aprotective oxidelayeronits surface when exposed to oxygen.
3. Biocompatibility: Titanium is biocompatible, meaning it is well-tolerated by the human body and does not elicit adverse reactions. This makes it suitable for medical implants, such as artificial joints, dental implants, and surgical instruments.
4. Heat resistance: Titanium can withstand high temperatures without significant deformation or loss of strength. Its melting point is around 1,670°C (3,038°F), and it retains its mechanical properties at elevated temperatures.
5. Low thermal expansion: Titanium has alow coefficientof thermal expansion, which means it expands and contracts minimally with changes in temperature. This property is advantageous in applications where dimensional stability is crucial.
6. Non-magnetic:Titaniumisnon-magnetic,makingitsuitableforuseinsensitiveelectronic devices or applications where magnetism needs to be avoided.
7. Excellent fatigue resistance: Titanium has exceptional fatigue strength, enabling it to withstand repeatedloadingsand vibrationswithoutfailure.Thisproperty makesitsuitable for applications subjected to cyclic loading, such as aircraft components.
8. Good ductility: Titanium exhibits good ductility, allowing it to be easily formed,fabricated, and machined into various shapes and sizes.
9. Highmelting point: Titaniumhas arelativelyhighmeltingpointcomparedtoothermetals, allowing it to retain its structural integrity at elevated temperatures.
Due to these remarkable features, titanium finds applications in a wide range of industries, including aerospace, automotive, medical, chemical processing, marine, and sports equipment manufacturing.
