Why choose titanium alloy?

Author: Madhavachar Rangnekadr

Titanium is 30% stronger than steel, but is nearly 50% lighter. Titanium is 60% heavier than aluminum, but twice as strong. Titanium has excellent strength retention to 1,000 degrees Fahrenheit. Titanium is alloyed with aluminum, manganese, iron, molybdenum and other metals to increase strength, to withstand high temperatures, and to lighten the resultant alloy. Titanium’s high corrosion resistance is also a valuable characteristic; as when exposed to the atmosphere, titanium forms a tight, tenacious oxide film that resists many corrosive materials, particularly salt water.

  • Titanium rods/bar
  • Titanium tube/pipe
  • Titanium plate/sheets

In the 1950s, the titanium metal industry was established primarily in response to the emerging aerospace industry, which used it in the manufacture of airframe structural components and skin, aircraft hydraulic systems, air engine components, rockets, missiles, and spacecraft, where these properties are invaluable. The military also uses titanium in its guided missiles and in artillery.

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Other practical applications have evolved over time such as shipbuilding: in submarines, ship’s propellers, shafts, rigging, and other highly corrosive parts. Titanium is being increasingly utilized for medical applications due to its lightweight, its strength, and its hypoallergenic properties, as titanium is also nickel free. Titanium products are becoming increasingly utilized in other industries as well, from petrochemical applications to sporting goods.

Titanium is 30% stronger than steel, but is nearly 50% lighter. Titanium is 60% heavier than aluminum, but twice as strong. Titanium has excellent strength retention to 1,000 degrees Fahrenheit. Titanium is alloyed with aluminum, manganese, iron, molybdenum and other metals to increase strength, to withstand high temperatures, and to lighten the resultant alloy. Titanium’s high corrosion resistance is also a valuable characteristic; as when exposed to the atmosphere, titanium forms a tight, tenacious oxide film that resists many corrosive materials, particularly salt water.

In the 1950s, the titanium metal industry was established primarily in response to the emerging aerospace industry, which used it in the manufacture of airframe structural components and skin, aircraft hydraulic systems, air engine components, rockets, missiles, and spacecraft, where these properties are invaluable. The military also uses titanium in its guided missiles and in artillery.

Other practical applications have evolved over time such as shipbuilding: in submarines, ship’s propellers, shafts, rigging, and other highly corrosive parts. Titanium is being increasingly utilized for medical applications due to its lightweight, its strength, and its hypoallergenic properties, as titanium is also nickel free. Titanium products are becoming increasingly utilized in other industries as well, from petrochemical applications to sporting goods.

Other practical applications have evolved over time such as shipbuilding: in submarines, ship’s propellers, shafts, rigging, and other highly corrosive parts. Titanium is being increasingly utilized for medical applications due to its lightweight, its strength, and its hypoallergenic properties, as titanium is also nickel free. Titanium products are becoming increasingly utilized in other industries as well, from petrochemical applications to sporting goods.

Titanium is 30% stronger than steel, but is nearly 50% lighter. Titanium is 60% heavier than aluminum, but twice as strong. Titanium has excellent strength retention to 1,000 degrees Fahrenheit. Titanium is alloyed with aluminum, manganese, iron, molybdenum and other metals to increase strength, to withstand high temperatures, and to lighten the resultant alloy. Titanium’s high corrosion resistance is also a valuable characteristic; as when exposed to the atmosphere, titanium forms a tight, tenacious oxide film that resists many corrosive materials, particularly salt water.