Preliminary study of electrical contact behaviors of Au-plated material at super low making/breaking velocity

Wanbin Ren; Shengjun Xue; Hongxu Zhi; Guofu Zhai

doi:10.1587/transele.E98.C.364

Preliminary study of electrical contact behaviors of Au-plated material at super low making/breaking velocity

Wanbin Ren
, Shengjun Xue
, Hongxu Zhi
, Guofu Zhai

School of Electrical Engineering and Automation, Harbin Institute of Technology

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

5 Scopus citations

Abstract

This paper presents the electrical contact behaviors of Au-plated material at super low making and breaking velocity conditions by introducing our new designed test rig. The fundamental phenomena in the contact voltage and contact force versus piezoactuator displacement curves were investigated under the load current of 1A and velocity of 50 nm/s. From the repetitive experimental results, we found that the adhesion phenomena during the unloading process are closely correlative with the initial contact stage in the loading process. Furthermore, a mathematical model which is relative to the variation of contact force in loading is built, thus the physical mechanism of adhesion and principal factors of gold-plated materials are discussed. Finally, the physical process of molten bridge under the no mechanical contact situation is also analyzed in detail.

Original language	English
Pages (from-to)	364-370
Number of pages	7
Journal	IEICE Transactions on Electronics
Volume	E98C
Issue number	4
DOIs	https://doi.org/10.1587/transele.E98.C.364
State	Published - 1 Apr 2015
Externally published	Yes

Keywords

Adhesion forcek
Au-plated material
Contact voltage
Electrical contact
Super low velocity

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10.1587/transele.E98.C.364

Cite this

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title = "Preliminary study of electrical contact behaviors of Au-plated material at super low making/breaking velocity",

abstract = "This paper presents the electrical contact behaviors of Au-plated material at super low making and breaking velocity conditions by introducing our new designed test rig. The fundamental phenomena in the contact voltage and contact force versus piezoactuator displacement curves were investigated under the load current of 1A and velocity of 50 nm/s. From the repetitive experimental results, we found that the adhesion phenomena during the unloading process are closely correlative with the initial contact stage in the loading process. Furthermore, a mathematical model which is relative to the variation of contact force in loading is built, thus the physical mechanism of adhesion and principal factors of gold-plated materials are discussed. Finally, the physical process of molten bridge under the no mechanical contact situation is also analyzed in detail.",

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author = "Wanbin Ren and Shengjun Xue and Hongxu Zhi and Guofu Zhai",

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AU - Ren, Wanbin

AU - Xue, Shengjun

AU - Zhi, Hongxu

AU - Zhai, Guofu

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Y1 - 2015/4/1

N2 - This paper presents the electrical contact behaviors of Au-plated material at super low making and breaking velocity conditions by introducing our new designed test rig. The fundamental phenomena in the contact voltage and contact force versus piezoactuator displacement curves were investigated under the load current of 1A and velocity of 50 nm/s. From the repetitive experimental results, we found that the adhesion phenomena during the unloading process are closely correlative with the initial contact stage in the loading process. Furthermore, a mathematical model which is relative to the variation of contact force in loading is built, thus the physical mechanism of adhesion and principal factors of gold-plated materials are discussed. Finally, the physical process of molten bridge under the no mechanical contact situation is also analyzed in detail.

AB - This paper presents the electrical contact behaviors of Au-plated material at super low making and breaking velocity conditions by introducing our new designed test rig. The fundamental phenomena in the contact voltage and contact force versus piezoactuator displacement curves were investigated under the load current of 1A and velocity of 50 nm/s. From the repetitive experimental results, we found that the adhesion phenomena during the unloading process are closely correlative with the initial contact stage in the loading process. Furthermore, a mathematical model which is relative to the variation of contact force in loading is built, thus the physical mechanism of adhesion and principal factors of gold-plated materials are discussed. Finally, the physical process of molten bridge under the no mechanical contact situation is also analyzed in detail.

KW - Adhesion forcek

KW - Au-plated material

KW - Contact voltage

KW - Electrical contact

KW - Super low velocity

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ER -

Preliminary study of electrical contact behaviors of Au-plated material at super low making/breaking velocity

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Keywords

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