Titanium Forge Elbow Titanium Forged Fittings
Titanium Forge Elbow Fav is the manufacturer and exporter of Titanium GR 2 Forged Elbow which is a part of our titanium compression fitting range.
Standard sizes available are ¼”, 3/8”, ½” , ¾” and 4mm 6mm 8mm 10mm 12mm.
Titanium Forge Elbow Titanium Forged Fittings may be considered in any application where formability and corrosion resistance are important, and strength requirements are moderate. Ti Grade 2 has also been widely used in marine and chemical applications such as condensers, evaporators, reaction vessels for chemical processing, tubing and tube headers in desalinization plants, and cryogenic vessels. Other uses have included items such as jigs, baskets, cathodes and starter-sheet blanks for the electroplating industry, and a variety of medical application for Titanium Forge Elbow
You can also visit our Double Ferrule Compression Tube Fittings section for alternative modes for connecting tubes.
For Pipe fittings click here.
Applications for Titanium Forge Elbow
The high strength, low weight ratio and outstanding corrosion resistance inherent to Titanium Forged Fittings and its alloys has led to a wide and diversified range of successful applications which demand high levels of reliable performance in surgery and medicine as well as in aerospace, automotive, chemical plant, power generation, oil and gas extraction, sports, and other major industries.
In the majority of these and other engineering applications titanium has replaced heavier, less serviceable or less cost-effective materials. Designing with titanium taking all factors into account has resulted in reliable, economic and more durable systems and components, which in many situations have substantially exceeded performance and service life expectations.
Properties of Titanium Forged Fittings
Titanium Forged Fittings machining possesses similar characteristics to austenitic stainless steel. Although titanium is commonly perceived as challenging to machine, Grade 2 can be machined easily by following the recommended protocol—low cutting speeds, heavy feed rates, generous amounts of cutting fluids, sharp tools and rigid setups.
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