A Review on High‐Strength Titanium Alloys: Microstructure, Strengthening, and Properties

The authors review the recent advances in the development of high‐strength titanium alloys. First, they summarize conventional strengthening approaches and their mechanisms, thecorresponding microstructures, and the optimized mechanical properties. Subsequently, various strengthening strategies for...

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Bibliographic Details
Published in	Advanced engineering materials Vol. 21; no. 8
Main Authors	Kang, LiMei, Yang, Chao
Format	Journal Article
Language	English
Published	01.08.2019
Subjects	mechanical properties microstructure strengthening mechanisms titanium alloys
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Abstract	The authors review the recent advances in the development of high‐strength titanium alloys. First, they summarize conventional strengthening approaches and their mechanisms, thecorresponding microstructures, and the optimized mechanical properties. Subsequently, various strengthening strategies for high‐strength titanium alloys are discussed. Finally, examples of the successful development of high‐strength titanium alloys based on amorphous crystallization via solid and semi‐solid sintering are presented. The review of the interrelation between the microstructure, the strengthening, and the properties may provide significant insight into achieving novel high‐strength titanium alloys. Development of bimodal/multimodal microstructure has attracted extensive attention in the balance of high strength and ductility of titanium alloys. This review covers the development strategies of ultrahigh strength titanium alloys consisting of nanoscale and microscale grains. Specially, a novel semi‐solid sintering technique for preparing bimodal structured titanium alloys composed of nanostructured eutectic matrix and micron‐sized precipitated phases has been proposed.
AbstractList	The authors review the recent advances in the development of high‐strength titanium alloys. First, they summarize conventional strengthening approaches and their mechanisms, thecorresponding microstructures, and the optimized mechanical properties. Subsequently, various strengthening strategies for high‐strength titanium alloys are discussed. Finally, examples of the successful development of high‐strength titanium alloys based on amorphous crystallization via solid and semi‐solid sintering are presented. The review of the interrelation between the microstructure, the strengthening, and the properties may provide significant insight into achieving novel high‐strength titanium alloys. Development of bimodal/multimodal microstructure has attracted extensive attention in the balance of high strength and ductility of titanium alloys. This review covers the development strategies of ultrahigh strength titanium alloys consisting of nanoscale and microscale grains. Specially, a novel semi‐solid sintering technique for preparing bimodal structured titanium alloys composed of nanostructured eutectic matrix and micron‐sized precipitated phases has been proposed.
Author	Yang, Chao Kang, LiMei
Author_xml	– sequence: 1 givenname: LiMei surname: Kang fullname: Kang, LiMei organization: Guangdong University of Technology – sequence: 2 givenname: Chao surname: Yang fullname: Yang, Chao email: cyang@scut.edu.cn organization: South China University of Technology
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Snippet	The authors review the recent advances in the development of high‐strength titanium alloys. First, they summarize conventional strengthening approaches and...
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SubjectTerms	mechanical properties microstructure strengthening mechanisms titanium alloys
Title	A Review on High‐Strength Titanium Alloys: Microstructure, Strengthening, and Properties
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