Finite element analysis and nanoindentation-based experiment of residual stress of SS304/BNi-2/SS304 stainless steel brazed joints

Guo Li; Jianming Gong; Hu Chen

Finite element analysis and nanoindentation-based experiment of residual stress of SS304/BNi-2/SS304 stainless steel brazed joints

Guo Li, Jianming Gong, Hu Chen

School of Mechanical and Power Engineering

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

5 Scopus citations

Abstract

The numerical analysis was implemented on the residual stress of the SS304/BNi-2/SS304 T shape brazed joint by both finite element method (FEM) employing ABAQUS sequentially coupling code and Nanoindentation technology. The results show that the residual stress of the brazed joint produced due to the mechanical property mismatch of the base metal SS304 and the filler BNi-2. The residual stress which can induce the crack initiation and is maximum at the fillet and decreases gradually along the mid-seaming. The other zone is uniformity. So the fillet becomes the weakest area. The Nanoindentation test adopts the Suresh model and the experimental results are corresponded with the FEM and also prove the efficient and reliability of FEM.

Original language	English
Pages (from-to)	79-82+86
Journal	Hanjie Xuebao/Transactions of the China Welding Institution
Volume	31
Issue number	7
State	Published - Jul 2010

Keywords

Brazing
Finite element
Nanoindentation
Residual stress
T shape joint

Cite this

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title = "Finite element analysis and nanoindentation-based experiment of residual stress of SS304/BNi-2/SS304 stainless steel brazed joints",

abstract = "The numerical analysis was implemented on the residual stress of the SS304/BNi-2/SS304 T shape brazed joint by both finite element method (FEM) employing ABAQUS sequentially coupling code and Nanoindentation technology. The results show that the residual stress of the brazed joint produced due to the mechanical property mismatch of the base metal SS304 and the filler BNi-2. The residual stress which can induce the crack initiation and is maximum at the fillet and decreases gradually along the mid-seaming. The other zone is uniformity. So the fillet becomes the weakest area. The Nanoindentation test adopts the Suresh model and the experimental results are corresponded with the FEM and also prove the efficient and reliability of FEM.",

keywords = "Brazing, Finite element, Nanoindentation, Residual stress, T shape joint",

author = "Guo Li and Jianming Gong and Hu Chen",

year = "2010",

month = jul,

language = "英语",

volume = "31",

pages = "79--82+86",

journal = "Hanjie Xuebao/Transactions of the China Welding Institution",

issn = "0253-360X",

publisher = "Harbin Research Institute of Welding",

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TY - JOUR

T1 - Finite element analysis and nanoindentation-based experiment of residual stress of SS304/BNi-2/SS304 stainless steel brazed joints

AU - Li, Guo

AU - Gong, Jianming

AU - Chen, Hu

PY - 2010/7

Y1 - 2010/7

N2 - The numerical analysis was implemented on the residual stress of the SS304/BNi-2/SS304 T shape brazed joint by both finite element method (FEM) employing ABAQUS sequentially coupling code and Nanoindentation technology. The results show that the residual stress of the brazed joint produced due to the mechanical property mismatch of the base metal SS304 and the filler BNi-2. The residual stress which can induce the crack initiation and is maximum at the fillet and decreases gradually along the mid-seaming. The other zone is uniformity. So the fillet becomes the weakest area. The Nanoindentation test adopts the Suresh model and the experimental results are corresponded with the FEM and also prove the efficient and reliability of FEM.

AB - The numerical analysis was implemented on the residual stress of the SS304/BNi-2/SS304 T shape brazed joint by both finite element method (FEM) employing ABAQUS sequentially coupling code and Nanoindentation technology. The results show that the residual stress of the brazed joint produced due to the mechanical property mismatch of the base metal SS304 and the filler BNi-2. The residual stress which can induce the crack initiation and is maximum at the fillet and decreases gradually along the mid-seaming. The other zone is uniformity. So the fillet becomes the weakest area. The Nanoindentation test adopts the Suresh model and the experimental results are corresponded with the FEM and also prove the efficient and reliability of FEM.

KW - Brazing

KW - Finite element

KW - Nanoindentation

KW - Residual stress

KW - T shape joint

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M3 - 文章

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SN - 0253-360X

VL - 31

SP - 79-82+86

JO - Hanjie Xuebao/Transactions of the China Welding Institution

JF - Hanjie Xuebao/Transactions of the China Welding Institution

IS - 7

ER -

Finite element analysis and nanoindentation-based experiment of residual stress of SS304/BNi-2/SS304 stainless steel brazed joints

Abstract

Keywords

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