Comparison of the Microstructure and Mechanical Properties of Ti-3573 and Ti-3873 Alloy after Solution Treatment

In this regard, two beta titanium alloys in the Ti-Al-Mo-V-Cr system, Ti-3Al-5Mo-7V-3Cr (Ti-3573) and Ti-3Al-8Mo-7V-3Cr (Ti-3873), have been designed. Comparison of the microstructure and mechanical properties of both alloys after solution treatment was conducted. The result shows that the β grains...

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Published in	Materials science forum Vol. 1003; pp. 60 - 66
Main Authors	Li, Jin Yu, Cui, Xi Jun, Zhang, Li, Cai, Wen Hao, Li, Zhuang, Wang, Hao Xu, Zhou, Qi, Zhang, Run Qi, Cai, Yi Qin
Format	Journal Article
Language	English
Published	Pfaffikon Trans Tech Publications Ltd 01.07.2020
Subjects	Alloy systems Chromium Deformation effects Dimpling Ductile fracture Elongation Grain size Heat treating Mechanical properties Microstructure Molybdenum Plastic properties Solution heat treatment Substrates Tensile strength Titanium alloys Titanium base alloys Twinning Ductile Fracture Grain Size Ti-3873 Alloys Ti-3573 Solution Treatment
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Abstract	In this regard, two beta titanium alloys in the Ti-Al-Mo-V-Cr system, Ti-3Al-5Mo-7V-3Cr (Ti-3573) and Ti-3Al-8Mo-7V-3Cr (Ti-3873), have been designed. Comparison of the microstructure and mechanical properties of both alloys after solution treatment was conducted. The result shows that the β grains in Ti-3873 alloy are abnormally grown at WQ. The elongation of Ti-3573 alloy is higher than that of Ti-3873 alloy, it is related to the the smaller grain size. The Ti-3873 alloy has moderate plasticity but higher yield strength and tensile strength. Fine and deep dimples associated with ductile fracture were obtained for the Ti-3573 alloy. The fractography of the β-substrate specimens showed that the fracture mode was ductile fracture. The Ti-3873 alloy has a combination of slip and twinning during deformation. It is possible for the Ti-3573 alloy to undergo both twinning and TRIP effect upon deformation. Therefore, Ti-3573 alloy exhibited good plasticity and strength matching.
AbstractList	In this regard, two beta titanium alloys in the Ti-Al-Mo-V-Cr system, Ti-3Al-5Mo-7V-3Cr (Ti-3573) and Ti-3Al-8Mo-7V-3Cr (Ti-3873), have been designed. Comparison of the microstructure and mechanical properties of both alloys after solution treatment was conducted. The result shows that the β grains in Ti-3873 alloy are abnormally grown at WQ. The elongation of Ti-3573 alloy is higher than that of Ti-3873 alloy, it is related to the the smaller grain size. The Ti-3873 alloy has moderate plasticity but higher yield strength and tensile strength. Fine and deep dimples associated with ductile fracture were obtained for the Ti-3573 alloy. The fractography of the β-substrate specimens showed that the fracture mode was ductile fracture. The Ti-3873 alloy has a combination of slip and twinning during deformation. It is possible for the Ti-3573 alloy to undergo both twinning and TRIP effect upon deformation. Therefore, Ti-3573 alloy exhibited good plasticity and strength matching.
Author	Zhou, Qi Cai, Wen Hao Li, Jin Yu Cui, Xi Jun Cai, Yi Qin Zhang, Li Li, Zhuang Zhang, Run Qi Wang, Hao Xu
Author_xml	– givenname: Jin Yu surname: Li fullname: Li, Jin Yu email: 378511329@qq.com organization: Shenyang Aerospace University : School of Materials Science and Engineering – givenname: Xi Jun surname: Cui fullname: Cui, Xi Jun email: cuixijun1227@gmail.com organization: University of Wollongong : School of Mechanical, Materials, Mechatronic and Biomedical Engineering – givenname: Li surname: Zhang fullname: Zhang, Li email: zhangli@sau.edu.cn organization: Shenyang Aerospace University : College of Materials Science and Engineering – givenname: Wen Hao surname: Cai fullname: Cai, Wen Hao email: 852041955@qq.com organization: Shenyang Aerospace University : College of Materials Science and Engineering – givenname: Zhuang surname: Li fullname: Li, Zhuang email: lizhuang20047@163.com organization: Shenyang Aerospace University : College of Materials Science and Engineering – givenname: Hao Xu surname: Wang fullname: Wang, Hao Xu email: 2655008182@qq.com organization: Shenyang Aerospace University : College of Materials Science and Engineering – givenname: Qi surname: Zhou fullname: Zhou, Qi email: zhouqi2469@163.com organization: Shenyang Ligong University : School of Environmental and Chemical Engineering – givenname: Run Qi surname: Zhang fullname: Zhang, Run Qi email: 1293161512@qq.com organization: Shenyang Aerospace University : School of Materials Science and Engineering – givenname: Yi Qin surname: Cai fullname: Cai, Yi Qin email: 81331647@qq.com organization: Shenyang Aerospace University : School of Materials Science and Engineering
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Snippet	In this regard, two beta titanium alloys in the Ti-Al-Mo-V-Cr system, Ti-3Al-5Mo-7V-3Cr (Ti-3573) and Ti-3Al-8Mo-7V-3Cr (Ti-3873), have been designed....
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SubjectTerms	Alloy systems Chromium Deformation effects Dimpling Ductile fracture Elongation Grain size Heat treating Mechanical properties Microstructure Molybdenum Plastic properties Solution heat treatment Substrates Tensile strength Titanium alloys Titanium base alloys Twinning
Title	Comparison of the Microstructure and Mechanical Properties of Ti-3573 and Ti-3873 Alloy after Solution Treatment
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