Vacuum brazing of 304 stainless steel plate-fin structure and simulation of its tensile strength

Jianming Gong; Wenchun Jiang

doi:10.3969/j.issn.1672-7126.2010.05.22

Vacuum brazing of 304 stainless steel plate-fin structure and simulation of its tensile strength

Jianming Gong, Wenchun Jiang

School of Mechanical and Power Engineering

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

Abstract

The impacts of the vacuum brazing conditions, including the filler metal thickness, pressure, and heating/cooling modes, on the tensile strength of the 304 stainless steel plate-fin structure, were experimentally studied and analytically simulated in finite element method. Both the measured and calculated results show that the filler metal thickness strongly affects the tensile strength of the plate-fin structure. For instance, as the filler metal thickness increases in the three ranges: below 105 μm, 105 μm to 140 μm, and beyond 140 μm, the tensile strength first increases, then, remains unchanged, and finally, decreases, respectively. Besides, a thickness increase leads to the increases in the fillet area and load, which in turn, enhance the tensile strength, generate more brittle phases in the fillet, and reduce the bonding strength at the junctions.

Original language	English
Pages (from-to)	561-566
Number of pages	6
Journal	Zhenkong Kexue yu Jishu Xuebao/Journal of Vacuum Science and Technology
Volume	30
Issue number	5
DOIs	https://doi.org/10.3969/j.issn.1672-7126.2010.05.22
State	Published - Oct 2010

Keywords

Filler metal thickness
Finite element
Stainless steel plate-fin structure
Tensile strength
Vacuum brazing

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10.3969/j.issn.1672-7126.2010.05.22

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title = "Vacuum brazing of 304 stainless steel plate-fin structure and simulation of its tensile strength",

abstract = "The impacts of the vacuum brazing conditions, including the filler metal thickness, pressure, and heating/cooling modes, on the tensile strength of the 304 stainless steel plate-fin structure, were experimentally studied and analytically simulated in finite element method. Both the measured and calculated results show that the filler metal thickness strongly affects the tensile strength of the plate-fin structure. For instance, as the filler metal thickness increases in the three ranges: below 105 μm, 105 μm to 140 μm, and beyond 140 μm, the tensile strength first increases, then, remains unchanged, and finally, decreases, respectively. Besides, a thickness increase leads to the increases in the fillet area and load, which in turn, enhance the tensile strength, generate more brittle phases in the fillet, and reduce the bonding strength at the junctions.",

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author = "Jianming Gong and Wenchun Jiang",

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AU - Gong, Jianming

AU - Jiang, Wenchun

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AB - The impacts of the vacuum brazing conditions, including the filler metal thickness, pressure, and heating/cooling modes, on the tensile strength of the 304 stainless steel plate-fin structure, were experimentally studied and analytically simulated in finite element method. Both the measured and calculated results show that the filler metal thickness strongly affects the tensile strength of the plate-fin structure. For instance, as the filler metal thickness increases in the three ranges: below 105 μm, 105 μm to 140 μm, and beyond 140 μm, the tensile strength first increases, then, remains unchanged, and finally, decreases, respectively. Besides, a thickness increase leads to the increases in the fillet area and load, which in turn, enhance the tensile strength, generate more brittle phases in the fillet, and reduce the bonding strength at the junctions.

KW - Filler metal thickness

KW - Finite element

KW - Stainless steel plate-fin structure

KW - Tensile strength

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Vacuum brazing of 304 stainless steel plate-fin structure and simulation of its tensile strength

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Keywords

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