Titanium Grade 5 Round Bars


Round Bars Fittings

Titanium Round Bars

These are available different dimentions, specification & thickness as per the clients requirements. These are widely used in chemicals and petro-chemicals Plants, desalination plants, paper & pulp Industries, automotive etc.

Titanium Threaded Bars as well offers superior strength and formability between 1 and 3. Titanium Hollow Bars provides soaring corrosion resistance and a better operational array than aluminum. By means of outstanding corrosion resistance, formability and moderate strength, Titanium Hexagonal Bars signifies the most extensively used form of titanium. Meanwhile, Titanium Triangular Bars are also being offered in different sizes and shapes to our customers. Titanium Bars has a minimum yield strength of 275 Mpa (40 ksi), and relatively low levels of impurity elements, which places it between in terms of strength. This is partly due to low density and corrosion resistance of Titanium Rods which can be easily welded, hot and cold worked and machined. Ti Alloy Round Bars is used where corrosion resistance is an important criterion, or where operating temperatures preclude the use of aluminum. Ti Alloy Bars is used in a wide range of industrial
applications from oil & gas and chemical to marine industries.

They are used for several applications such as in Architecture, Automotive Desalination, Dimensional Stable Anodes, Medical, Marine, Processing and Chlorate Manufacturing, etc. Also known as UNS R50250 Bars, our Titanium Alloy Grade 1 Round Bars and Rods are accessible to our valuable customers in different range of diameters, wall thicknesses and sizes in customized form and also at quite affordable rates.

Hind Metals are Manufacturers, Exporters and Supplier of high quality Titanium Bars, Rods & Wires in mumbai, India. We also offer the complete range of grades like Titanium GR -2, GR-5 Bars as per the clients requirements. These Rods made of high grade steel which has great durability, strong and sturdy quality with smooth surface.