The Finite Element Simulation of Diffusion Bonding for TiAl/Ti                         2                         AlNb Annular Structural Component

Xiaoqiang Zhang; Bin Tang; Jinshan Li; Hongchao Kou

doi:10.1007/978-981-13-5944-6_49

The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component

Xiaoqiang Zhang, Bin Tang, Jinshan Li, Hongchao Kou

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Diffusion bonding is an effective method that can avoid microcracks and reduce residual stress obtained between dissimilar materials, so it is chosen for the preparation of TiAl/Ti ₂ AlNb annular component. A new diffusion bonding method is proposed to obtain sufficient and adjustable bonding pressure on the annular interface. The bonding interface is designed as oblique surface, which allows TiAl part dropping. The diffusion bonding finite element (FE) model is established, and the influences of dropping distance and cone angle on bonding pressure are investigated and optimized. The results show that the bonding pressure generates after the dropping and gets stable during the holding. Too large cone angle will cause great bonding pressure difference along the interface. Considering the machine precision, the ideal cone angle is 3°. The best dropping distance is about 3–4% of the radius of the Ti ₂ AlNb component, which will obtain sufficient bonding pressure and avoid great stress concentration at the interface.

Original language	English
Title of host publication	Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018
Editors	Yafang Han
Publisher	Springer Science and Business Media, LLC
Pages	495-503
Number of pages	9
ISBN (Print)	9789811359439
DOIs	https://doi.org/10.1007/978-981-13-5944-6_49
State	Published - 2019
Event	Chinese Materials Conference, CMC 2018 - Xiamen, China Duration: 12 Jul 2018 → 16 Jul 2018

Publication series

Name	Springer Proceedings in Physics
Volume	217
ISSN (Print)	0930-8989
ISSN (Electronic)	1867-4941

Conference

Conference	Chinese Materials Conference, CMC 2018
Country/Territory	China
City	Xiamen
Period	12/07/18 → 16/07/18

Keywords

Annular structural component
Diffusion bonding
Finite element simulation
TiAl

Access to Document

10.1007/978-981-13-5944-6_49

Cite this

Zhang, X., Tang, B., Li, J., & Kou, H. (2019). The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component In Y. Han (Ed.), Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018 (pp. 495-503). (Springer Proceedings in Physics; Vol. 217). Springer Science and Business Media, LLC. https://doi.org/10.1007/978-981-13-5944-6_49

Zhang, Xiaoqiang ; Tang, Bin ; Li, Jinshan et al. / The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018. editor / Yafang Han. Springer Science and Business Media, LLC, 2019. pp. 495-503 (Springer Proceedings in Physics).

@inproceedings{163876297d6842238bf0ad4cadbe1739,

title = " The Finite Element Simulation of Diffusion Bonding for TiAl/Ti 2 AlNb Annular Structural Component ",

abstract = " Diffusion bonding is an effective method that can avoid microcracks and reduce residual stress obtained between dissimilar materials, so it is chosen for the preparation of TiAl/Ti 2 AlNb annular component. A new diffusion bonding method is proposed to obtain sufficient and adjustable bonding pressure on the annular interface. The bonding interface is designed as oblique surface, which allows TiAl part dropping. The diffusion bonding finite element (FE) model is established, and the influences of dropping distance and cone angle on bonding pressure are investigated and optimized. The results show that the bonding pressure generates after the dropping and gets stable during the holding. Too large cone angle will cause great bonding pressure difference along the interface. Considering the machine precision, the ideal cone angle is 3°. The best dropping distance is about 3–4% of the radius of the Ti 2 AlNb component, which will obtain sufficient bonding pressure and avoid great stress concentration at the interface.",

keywords = "Annular structural component, Diffusion bonding, Finite element simulation, TiAl",

author = "Xiaoqiang Zhang and Bin Tang and Jinshan Li and Hongchao Kou",

note = "Publisher Copyright: {\textcopyright} 2019, Springer Nature Singapore Pte Ltd.; Chinese Materials Conference, CMC 2018 ; Conference date: 12-07-2018 Through 16-07-2018",

year = "2019",

doi = "10.1007/978-981-13-5944-6_49",

language = "英语",

isbn = "9789811359439",

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pages = "495--503",

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booktitle = "Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018",

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Zhang, X, Tang, B , Li, J & Kou, H 2019, The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component in Y Han (ed.), Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018. Springer Proceedings in Physics, vol. 217, Springer Science and Business Media, LLC, pp. 495-503, Chinese Materials Conference, CMC 2018, Xiamen, China, 12/07/18. https://doi.org/10.1007/978-981-13-5944-6_49

The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component . / Zhang, Xiaoqiang; Tang, Bin ; Li, Jinshan et al.
Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018. ed. / Yafang Han. Springer Science and Business Media, LLC, 2019. p. 495-503 (Springer Proceedings in Physics; Vol. 217).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - The Finite Element Simulation of Diffusion Bonding for TiAl/Ti 2 AlNb Annular Structural Component

AU - Zhang, Xiaoqiang

AU - Tang, Bin

AU - Li, Jinshan

AU - Kou, Hongchao

PY - 2019

Y1 - 2019

N2 - Diffusion bonding is an effective method that can avoid microcracks and reduce residual stress obtained between dissimilar materials, so it is chosen for the preparation of TiAl/Ti 2 AlNb annular component. A new diffusion bonding method is proposed to obtain sufficient and adjustable bonding pressure on the annular interface. The bonding interface is designed as oblique surface, which allows TiAl part dropping. The diffusion bonding finite element (FE) model is established, and the influences of dropping distance and cone angle on bonding pressure are investigated and optimized. The results show that the bonding pressure generates after the dropping and gets stable during the holding. Too large cone angle will cause great bonding pressure difference along the interface. Considering the machine precision, the ideal cone angle is 3°. The best dropping distance is about 3–4% of the radius of the Ti 2 AlNb component, which will obtain sufficient bonding pressure and avoid great stress concentration at the interface.

AB - Diffusion bonding is an effective method that can avoid microcracks and reduce residual stress obtained between dissimilar materials, so it is chosen for the preparation of TiAl/Ti 2 AlNb annular component. A new diffusion bonding method is proposed to obtain sufficient and adjustable bonding pressure on the annular interface. The bonding interface is designed as oblique surface, which allows TiAl part dropping. The diffusion bonding finite element (FE) model is established, and the influences of dropping distance and cone angle on bonding pressure are investigated and optimized. The results show that the bonding pressure generates after the dropping and gets stable during the holding. Too large cone angle will cause great bonding pressure difference along the interface. Considering the machine precision, the ideal cone angle is 3°. The best dropping distance is about 3–4% of the radius of the Ti 2 AlNb component, which will obtain sufficient bonding pressure and avoid great stress concentration at the interface.

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Zhang X, Tang B , Li J , Kou H. The Finite Element Simulation of Diffusion Bonding for TiAl/Ti ₂ AlNb Annular Structural Component In Han Y, editor, Physics and Engineering of Metallic Materials - Proceedings of Chinese Materials Conference 2018. Springer Science and Business Media, LLC. 2019. p. 495-503. (Springer Proceedings in Physics). doi: 10.1007/978-981-13-5944-6_49