Evolution mechanism of the interfacial reaction layers in the joints of diffusion bonded Mo and Al foils

Jinglong Li; Fengkuan Zhao; Weihua Yang; Jiangtao Xiong; Fusheng Zhang; Xuechao Lü

Evolution mechanism of the interfacial reaction layers in the joints of diffusion bonded Mo and Al foils

Jinglong Li, Fengkuan Zhao, Weihua Yang, Jiangtao Xiong, Fusheng Zhang, Xuechao Lü

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Mo foil (10-20 μm in thickness) and Al foil (20-60 μm in thickness) were vacuum diffusion bonded at 600-640°C under 20 MPa for 54 min-6 h. The joints were examined by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) to study the evolution mechanism of the reaction layers. The results show that Al atoms diffuse into Mo grain boundaries and form reaction products as Mo₃Al₈, MoAl₄, MoAl₅ and MoAl₁₂. The surface oxide film is eroded by the growths of the reaction products that plow into the lamellar texture of Mo grain boundaries. Mo₃Al₈ layer grows by 'taking root' downwards and transforms into MoAl₄ and MoAl₅ phases upwards by absorbing Al atoms. MoAl₁₂ layer grows up from MoAl₅ layer in the same way. When the supplement of Al atoms ceases, MoAl₁₂ transforms reversely into MoAl₅ and MoAl₅ into MoAl₄ via the loss of Al atoms. However, MoAl₄ continues to precipitate from Mo₃Al₈ layer. At last, there are MoAl₄ and Mo₃Al₈ remained on the joint interface.

Original language	English
Pages (from-to)	7-12
Number of pages	6
Journal	China Welding (English Edition)
Volume	18
Issue number	1
State	Published - Mar 2009

Keywords

Al foil
Diffusion bonding
Mo foil
MoAl
Reaction layer

Cite this

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title = "Evolution mechanism of the interfacial reaction layers in the joints of diffusion bonded Mo and Al foils",

abstract = "Mo foil (10-20 μm in thickness) and Al foil (20-60 μm in thickness) were vacuum diffusion bonded at 600-640°C under 20 MPa for 54 min-6 h. The joints were examined by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) to study the evolution mechanism of the reaction layers. The results show that Al atoms diffuse into Mo grain boundaries and form reaction products as Mo3Al8, MoAl4, MoAl5 and MoAl12. The surface oxide film is eroded by the growths of the reaction products that plow into the lamellar texture of Mo grain boundaries. Mo3Al8 layer grows by 'taking root' downwards and transforms into MoAl4 and MoAl5 phases upwards by absorbing Al atoms. MoAl12 layer grows up from MoAl5 layer in the same way. When the supplement of Al atoms ceases, MoAl12 transforms reversely into MoAl5 and MoAl5 into MoAl4 via the loss of Al atoms. However, MoAl4 continues to precipitate from Mo3Al8 layer. At last, there are MoAl4 and Mo3Al8 remained on the joint interface.",

keywords = "Al foil, Diffusion bonding, Mo foil, MoAl, Reaction layer",

author = "Jinglong Li and Fengkuan Zhao and Weihua Yang and Jiangtao Xiong and Fusheng Zhang and Xuechao L{\"u}",

year = "2009",

month = mar,

language = "英语",

volume = "18",

pages = "7--12",

journal = "China Welding (English Edition)",

issn = "1004-5341",

publisher = "China Welding",

number = "1",

}

TY - JOUR

T1 - Evolution mechanism of the interfacial reaction layers in the joints of diffusion bonded Mo and Al foils

AU - Li, Jinglong

AU - Zhao, Fengkuan

AU - Yang, Weihua

AU - Xiong, Jiangtao

AU - Zhang, Fusheng

AU - Lü, Xuechao

PY - 2009/3

Y1 - 2009/3

N2 - Mo foil (10-20 μm in thickness) and Al foil (20-60 μm in thickness) were vacuum diffusion bonded at 600-640°C under 20 MPa for 54 min-6 h. The joints were examined by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) to study the evolution mechanism of the reaction layers. The results show that Al atoms diffuse into Mo grain boundaries and form reaction products as Mo3Al8, MoAl4, MoAl5 and MoAl12. The surface oxide film is eroded by the growths of the reaction products that plow into the lamellar texture of Mo grain boundaries. Mo3Al8 layer grows by 'taking root' downwards and transforms into MoAl4 and MoAl5 phases upwards by absorbing Al atoms. MoAl12 layer grows up from MoAl5 layer in the same way. When the supplement of Al atoms ceases, MoAl12 transforms reversely into MoAl5 and MoAl5 into MoAl4 via the loss of Al atoms. However, MoAl4 continues to precipitate from Mo3Al8 layer. At last, there are MoAl4 and Mo3Al8 remained on the joint interface.

AB - Mo foil (10-20 μm in thickness) and Al foil (20-60 μm in thickness) were vacuum diffusion bonded at 600-640°C under 20 MPa for 54 min-6 h. The joints were examined by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) to study the evolution mechanism of the reaction layers. The results show that Al atoms diffuse into Mo grain boundaries and form reaction products as Mo3Al8, MoAl4, MoAl5 and MoAl12. The surface oxide film is eroded by the growths of the reaction products that plow into the lamellar texture of Mo grain boundaries. Mo3Al8 layer grows by 'taking root' downwards and transforms into MoAl4 and MoAl5 phases upwards by absorbing Al atoms. MoAl12 layer grows up from MoAl5 layer in the same way. When the supplement of Al atoms ceases, MoAl12 transforms reversely into MoAl5 and MoAl5 into MoAl4 via the loss of Al atoms. However, MoAl4 continues to precipitate from Mo3Al8 layer. At last, there are MoAl4 and Mo3Al8 remained on the joint interface.

KW - Al foil

KW - Diffusion bonding

KW - Mo foil

KW - MoAl

KW - Reaction layer

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M3 - 文章

AN - SCOPUS:65449126733

SN - 1004-5341

VL - 18

SP - 7

EP - 12

JO - China Welding (English Edition)

JF - China Welding (English Edition)

IS - 1

ER -

Evolution mechanism of the interfacial reaction layers in the joints of diffusion bonded Mo and Al foils

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Keywords

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