Titanium is a chemical element with the symbol Ti and atomic number 22. It has a low density and is a strong, lustrous, corrosion-resistant (including sea water, aqua regia and chlorine) transition metal with a silver color.
Titanium can be alloyed with iron, aluminium, vanadium, molybdenum, among other elements, to produce strong lightweight alloys for aerospace (jet engines, missiles, and spacecraft), military, industrial process (chemicals and petro-chemicals, desalination plants, pulp, and paper), automotive, agri-food, medical prostheses, orthopedic implants, dental and endodontic instruments and files, dental implants, sporting goods, jewelry, mobile phones, and other applications.
We at Siddhagiri Metals & tubes are known as specialist in Titanium Forgings, 85% of our customers are associated with us for their regular requirements of Titanium Forgings, many suppliers from China also procures Titanium Forgings from us because We have the specialization & 37 years of experience to manufacture Titanium Forgings & Nickel Alloys Sheet / Plate.
UNS NICKEL MATERIAL GRADES
|Grade 1 - UNS R50250
Grade 2 - UNS R50400
Grade 5 - UNS R56400
Grade 7 - UNS R52400
Grade 9 - UNS R56320
Grade 12 - UNS R53400
|Titanium Seamless Tubing
Titanium Seamless Pipe
Titanium Round Bar
Titanium Seamless & Welded Butt-weld Fittings
Titanium Specialty Forgings
TITANIUM, with its extraordinary combination of great strength and light weight, it is still an “alloy of the future” and an important part of APPÕs business today. APP has been producing titanium forgings since 1975 primarily for the aerospace market. We forge a variety of alloys, including Ti 10V-2Fe-3Al, Ti 6Al-4V and others, in sizes up to 150 square inches Plan View Area (PVA). Our design and production technologies allow us to produce both precision iso-thermally forged parts, as well as conventional lower temperature forgings.
ISO-THERMAL TITANIUM Forgings
When the temperatures of both the forging dies and the beginning raw material are elevated to the same very high levels, we call this condition “Iso-Thermal.” This iso-thermal condition, with close tolerance, super alloy tooling, special lubricants, and closely controlled forging speeds and pressures, combine to produce net and near-net configurations that require little or no machining. APP has three decades of iso-thermal forging experience.
CONVENTIONAL TITANIUM Forgings
In addition to iso-thermal precision forgings, APP produces conventional titanium forgings. These forgings are usually produced at lower die temperatures with less costly and less complex conventional tooling. The production rates of conventional titanium forgings is typically much higher than for iso-thermal forgings, resulting in a less costly part with shorter lead times.
|Titanium Forgings Application|
|Titanium Forgings Uses||
|Titanium Forgings Order & Packing Information|
|Min. Order: 10 Pieces (or please enquire for your customized order)
Trade Terms: FOB, CIF
Payment Terms: L/C, T/T
Packing: as per requirement
Place of Origin: Mumbai, India
Means of Transport: Land, Ocean
Delivery Date: one or two week
Price: click here to check price
Package: in wooden crate with plastic caps on each end.
A metallic element, titanium is recognized for its high strength-to-weight ratio. It is a strong metal with low density that is quite ductile (especially in an oxygen-free environment), lustrous, and metallic-white in color. The relatively high melting point (more than 1,650 °C or 3,000 °F) makes it useful as a refractory metal. It is paramagnetic and has fairly low electrical and thermal conductivity.
Commercial (99.2% pure) grades of titanium have ultimate tensile strength of about 63,000 psi (434 MPa), equal to that of common, low-grade steel alloys, but are 45% lighter. Titanium is 60% more dense than aluminium, but more than twice as strong as the most commonly used 6061-T6 aluminium alloy. Certain titanium alloys (e.g., Beta C) achieve tensile strengths of over 200,000 psi (1,400 MPa). However, titanium loses strength when heated above 430 °C (806 °F).
Titanium is fairly hard (although not as hard as some grades of heat-treated steel), non-magnetic and a poor conductor of heat and electricity. Machining requires precautions, as the material will soften and gall if sharp tools and proper cooling methods are not used. Like those made from steel, titanium structures have a fatigue limit which guarantees longevity in some applications. Titanium alloys have lower specific stiffnesses than in many other structural materials such as aluminium alloys and carbon fiber.
The metal is a dimorphic allotrope whose hexagonal alpha form changes into a body-centered cubic (lattice) β form at 882 °C (1,620 °F). The specific heat of the alpha form increases dramatically as it is heated to this transition temperature but then falls and remains fairly constant for the β form regardless of temperature. Similar to zirconium and hafnium, an additional omega phase exists, which is thermodynamically stable at high pressures, but is metastable at ambient pressures. This phase is usually hexagonal (ideal) or trigonal (distorted) and can be viewed as being due to a soft longitudinal acoustic phonon of the β phase causing collapse of (111) planes of atoms.