Properties of titanium and its alloys

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Properties of titanium and its alloys

Author : Yves COMBRES

Publication date: March 10, 2010, Review date: January 10, 2022 | Lire en français

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Overview

ABSTRACT

The chemical compositions and microstructural morphologies of titanium and its alloys are extremely varied. They thus present a large variety of properties such as resistance to corrosion, erosion and fire, biocompatibility, as well as excellent mechanical performances, comparable to those of steel, including ductility, resistance, and toughness. The development of their applications in aeronautics, aerospace and the chemical sector is justified by the precision, lightness and flexibility of the formed parts.

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AUTHOR

  • Yves COMBRES : Mining engineer - Doctorate in Materials Science and Engineering - Research engineer at CEZUS

 INTRODUCTION

It wasn't until 1790 that the element titanium (Ti in the periodic table) was discovered by the English monk Gregor. However, its metallurgical extraction was extremely difficult, and it was not until the 1940s that industrially exploitable solutions were established. The widespread use of the Kroll method for extracting pure Ti enabled the titanium industry to get off the ground around 1950.

The properties of titanium and its alloys can be broadly divided into two classes:

  • that conditioned by the nature of its surface: corrosion resistance is excellent and, combined with good processing flexibility, is increasingly used in the chemical industry in particular;

  • mechanical properties, which are high and comparable to those of steels; lower density, on the other hand, makes titanium alloys the material of choice, particularly in the aerospace industry.

It is these two classes that will lead to the applications presented in paragraph 5.

Note: for further information, please refer to the [M 2 355] article in the Pour en savoir plus section.

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