Effect of powders on microstructure and performance of inconel 718 alloy prepared by SPS

In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy through spark plasma sintering(SPS), and then the sintered alloy was treated by solid solution and aging heat treatment. The effect of diffe...

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Published in	Materials research express Vol. 9; no. 9; pp. 96501 - 96511
Main Authors	Qinggong, Jia, Qingxiang, Wang, Shuhua, Liang
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.09.2022
Subjects	Aging (metallurgy) Argon Atomizing Densification Heat treatment Inconel 718 alloy Microstructure Nickel base alloys Rotating plasmas Sintering (powder metallurgy) Solid solutions Spark plasma sintering Spherical plasmas Spherical powders Superalloys
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Abstract	In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy through spark plasma sintering(SPS), and then the sintered alloy was treated by solid solution and aging heat treatment. The effect of different powders on the microstructure and properties of Inconel 718 alloy as sintered and heat treated was studied. The results show that high density Inconel 718 alloy can be obtained by SPS technology, and the original particle boundary of powder can be reduced, and the original particle boundary of PREP is less. According to the densification process of spherical powder during SPS process, the change law of powder microstructure in rapid sintering is established.
AbstractList	In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy through spark plasma sintering(SPS), and then the sintered alloy was treated by solid solution and aging heat treatment. The effect of different powders on the microstructure and properties of Inconel 718 alloy as sintered and heat treated was studied. The results show that high density Inconel 718 alloy can be obtained by SPS technology, and the original particle boundary of powder can be reduced, and the original particle boundary of PREP is less. According to the densification process of spherical powder during SPS process, the change law of powder microstructure in rapid sintering is established. In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy through spark plasma sintering(SPS), and then the sintered alloy was treated by solid solution and aging heat treatment. The effect of different powders on the microstructure and properties of Inconel 718 alloy as sintered and heat treated was studied. The results show that high density Inconel 718 alloy can be obtained by SPS technology, and the original particle boundary of powder can be reduced, and the original particle boundary of PREP is less. According to the densification process of spherical powder during SPS process, the change law of powder microstructure in rapid sintering is established. In this paper, 15–53 μm spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy through spark plasma sintering(SPS), and then the sintered alloy was treated by solid solution and aging heat treatment. The effect of different powders on the microstructure and properties of Inconel 718 alloy as sintered and heat treated was studied. The results show that high density Inconel 718 alloy can be obtained by SPS technology, and the original particle boundary of powder can be reduced, and the original particle boundary of PREP is less. According to the densification process of spherical powder during SPS process, the change law of powder microstructure in rapid sintering is established.
Author	Shuhua, Liang Qinggong, Jia Qingxiang, Wang
Author_xml	– sequence: 1 givenname: Jia surname: Qinggong fullname: Qinggong, Jia organization: Xi’an Engineering Technology Co., Ltd, Xi’an, Shaanxi 710018, People’s Republic of China – sequence: 2 givenname: Wang orcidid: 0000-0001-8122-8039 surname: Qingxiang fullname: Qingxiang, Wang organization: Southwest Jiaotong University , School of Material Science and Engineering, Chengdu, Sichuan 610031, People’s Republic of China – sequence: 3 givenname: Liang surname: Shuhua fullname: Shuhua, Liang organization: Xi’an University of Technology , School of Material Science and Engineering, Xi’an, Shaanxi 710048, People’s Republic of China
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Snippet	In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy... In this paper, 15–53 μm spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy... In this paper, 15–53 μ m spherical powders obtained by plasma rotating electrode (PREP) and argon atomization (VIGA) were used to prepare the Inconel 718 alloy...
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SubjectTerms	Aging (metallurgy) Argon Atomizing Densification Heat treatment Inconel 718 alloy Microstructure Nickel base alloys Rotating plasmas Sintering (powder metallurgy) Solid solutions Spark plasma sintering Spherical plasmas Spherical powders Superalloys
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Title	Effect of powders on microstructure and performance of inconel 718 alloy prepared by SPS
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