Titanium Elbow Titanium Gr2 OD38*3 Titanium Seamless Tube Titanium Round Tube

Titanium has a metallic luster and ductility. Titanium is characterized by its low density, high mechanical strength and ease of processing. The plasticity of titanium depends largely on its purity. The purer the titanium, the more plastic it is. Good corrosion resistance, not affected by the atmosphere and seawater. At room temperature, it will not be corroded by hydrochloric acid below 7%, sulfuric acid below 5%, nitric acid, aqua regia or dilute alkali solution; Only hydrofluoric acid, concentrated hydrochloric acid, concentrated sulfuric acid can act on it. The presence of impurities in titanium greatly affects its mechanical properties, especially the interstitial impurities (oxygen, nitrogen, carbon) can greatly improve the strength of titanium and significantly reduce its plasticity. The good mechanical properties of titanium as a structural material are achieved by strictly controlling the appropriate impurity content and adding alloying elements.

The properties of titanium are closely related to temperature, morphology and purity. Dense titanium is fairly stable in nature, but powder titanium can cause spontaneous combustion in air. The presence of impurities in titanium significantly affects the physical, chemical, mechanical properties and corrosion resistance of titanium. In particular, some interstitial impurities can distort the crystal lattice of titanium and affect various properties of titanium. At room temperature, the chemical activity of titanium is very small and can react with a few substances such as hydrofluoric acid, but when the temperature increases, the activity of titanium increases rapidly, especially at high temperature, titanium can react violently with many substances. The smelting process of titanium is generally carried out at a high temperature above 800℃, so it must be operated in a vacuum or under the protection of an inert atmosphere.

Titanium tubes are light, high in strength and superior in mechanical properties. It is widely used in tubular heat exchangers, coil heat exchangers, serpentine tube heat exchangers, condensers, evaporators, conveying pipes and other heat exchangers. Many nuclear power industries use titanium tubes as standard tubes in their installations. Titanium tube has many advantages such as high strength, low density, good mechanical properties, good toughness and corrosion resistance. The production of titanium industry began in 1948. The needs of the development of aviation industry make the titanium industry develop at an average annual rate of about 8%. At present, the annual output of titanium alloy processing materials in the world has reached more than 40 thousand tons, and titanium alloy brands are nearly 30.

Feature

1. Low Density and High Strength
   2. Excellent Corrosion Resistance
   3. Good resistance to effect of heat
   4. Excellent Bearing to cryogenic property
   5. Nonmagnetic and Non-toxic