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Volume 28, Issue 2
4 April 2016
Soldering & Surface Mount Technology Cover Image for Volume 28, Issue 2
Research Article| April 04 2016

Time-based reflow soldering optimization by using adaptive Kriging-HDMR method Available to Purchase

Liming Chen;
Liming Chen
State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body,
Hunan University
, Changsha,
China
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Enying Li;
Enying Li
College of Transportation and Logistics,
Central South University of Forestry and Technology
, Changsha,
China
Enying Li can be contacted at: enyasteven@hotmail.com and Hu Wang can be contacted at: wanghu@hnu.edu.cn
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Hu Wang
Hu Wang
State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body,
Hunan University
, Changsha,
China
Enying Li can be contacted at: enyasteven@hotmail.com and Hu Wang can be contacted at: wanghu@hnu.edu.cn
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Author & Article Information
Enying Li can be contacted at: enyasteven@hotmail.com and Hu Wang can be contacted at: wanghu@hnu.edu.cn
Publisher: Emerald Publishing
Received: July 02 2015
Revision Received: August 22 2015
Accepted: September 22 2015
Online ISSN: 1758-6836
Print ISSN: 0954-0911
© Emerald Group Publishing Limited
2016
Emerald Group Publishing Limited
Licensed re-use rights only
Soldering & Surface Mount Technology (2016) 28 (2): 101–113.
https://doi.org/10.1108/SSMT-07-2015-0021
Article history
Received:
July 02 2015
Revision Received:
August 22 2015
Accepted:
September 22 2015
Purpose

Reflow soldering process is an important step of the surface mount technology. The purpose of this paper is to minimize the maximum warpage of shielding frame by controlling reflow soldering control parameters.

Design/methodology/approach

Compared with other reflow-related design methods, both time and temperate of each extracted time region are considered. Therefore, the number of design variable is increased. To solve the high-dimensional problem, a surrogate-assisted optimization (SAO) called adaptive Kriging high-dimensional representation model (HDMR) is used.

Findings

Therefore, the number of design variable is increased. To solve the high-dimensional problem, a surrogate-assisted optimization (SAO) called HDMR is used. The warpage of shield frame is significantly reduced. Moreover, the correlations of design variables are also disclosed.

Originality/value

Compared with the original Kriging HDMR, the expected improvement (EI) criterion is used and a new projection strategy is suggested to improve the efficiency of optimization method. The application suggests that the adaptive Kriging HDMR has potential capability to solve such complicated engineering problems.

Keywords:
Kriging, Reflow soldering, Warpage, Expected improvement, High dimensional representation modal
© Emerald Group Publishing Limited
2016
Emerald Group Publishing Limited
Licensed re-use rights only
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