The titanium finds its application in industrial and medical purpose since 1950. The titanium is one of the most abundant materials found on the earth, and its weight to strength ratio makes it one of the most preferred metals in the aerospace industry.
The titanium tubing find its application in a large number of industrial areas, from frame construction in the aerospace industry to manufacturing of heat exchangers and boilers. Even though titanium is the ninth most abundant material, still it is one of the most expensive metals available in the market. It is due to titanium being tough to find in a pure state which makes the manufacturing process a costly affair and subsequently making ti tube expensive.
The wide range of application of titanium:
Apart from the aerospace industry, titanium tube finds a wide range of application in medical and sports industry; the titanium tubes widely used in making wheelchairs and frame of sports cycle. Titanium being non-corrosive and lightweight it is often used to provide support to bones after any significant accident.
The non-reactive nature of titanium prevents it from reacting with the immune system of a human body otherwise which may lead to infection or in worse case gangrene. The cycles used for racing must be lightweight yet should be strong enough to handle the jerks and friction while travelling through a rough road; titanium is the ideal material for that.
The alloying of titanium:
The piping system of titanium alloys can withstand a large amount of temperature which makes it highly suited for tubing in heat exchangers and boilers. It makes titanium the widely preferred material in chemical industry. The titanium aluminum alloy finds its application improved further as it eliminated some negatives of titanium metal. The heat endurance capacity of the titanium (previously it was 500degree C) improved when aluminum mixed with it and makes it a widely preferred material in the gas and oil industry.