Fatigue test of Al-3% ti using axial loading testing machine for RF MEMS switch

Jun Hyub Park; Chang Seung Lee; Yun Jae Kim

doi:10.4028/www.scientific.net/SSP.110.3

Fatigue test of Al-3% ti using axial loading testing machine for RF MEMS switch

Jun Hyub Park, Chang Seung Lee, Yun Jae Kim

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper presents high cycle fatigue properties of a Al-3%Ti thin film, used in a RF (radio-frequency) MEMS switch for a mobile phone. The thickness and width of the thin film of specimen are 1.1 μm and 480.0 μm, respectively. Tensile tests of five specimens are performed, from which the ultimate strength is found to be 144MPa. High cycle fatigue tests of six specimens are also performed, from which the fatigue strength coefficient and the fatigue strength exponent are found to be 336MPa and –0.1514, respectively.

Original language	English
Title of host publication	Advances in Safety and Structural Integrity 2005
Editors	Young-Jin Kim
Publisher	Trans Tech Publications Ltd
Pages	3-8
Number of pages	6
ISBN (Print)	9783908451150
DOIs	https://doi.org/10.4028/www.scientific.net/SSP.110.3
Publication status	Published - 2006
Event	International Symposium on Safety and Structural Integrity, 2005 - Singapore, Singapore Duration: 2005 Jan 17 → 2005 Jan 20

Publication series

Name	Solid State Phenomena
Volume	110
ISSN (Print)	1012-0394
ISSN (Electronic)	1662-9779

Conference

Conference	International Symposium on Safety and Structural Integrity, 2005
Country/Territory	Singapore
City	Singapore
Period	05/1/17 → 05/1/20

Keywords

Axial Loading
Fatigue property
MEMS material
Static property

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Materials Science(all)
Condensed Matter Physics

Access to Document

10.4028/www.scientific.net/SSP.110.3

Cite this

Park, JH, Lee, CS & Kim, YJ 2006, Fatigue test of Al-3% ti using axial loading testing machine for RF MEMS switch. in Y-J Kim (ed.), Advances in Safety and Structural Integrity 2005. Solid State Phenomena, vol. 110, Trans Tech Publications Ltd, pp. 3-8, International Symposium on Safety and Structural Integrity, 2005, Singapore, Singapore, 05/1/17. https://doi.org/10.4028/www.scientific.net/SSP.110.3

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title = "Fatigue test of Al-3% ti using axial loading testing machine for RF MEMS switch",

abstract = "This paper presents high cycle fatigue properties of a Al-3%Ti thin film, used in a RF (radio-frequency) MEMS switch for a mobile phone. The thickness and width of the thin film of specimen are 1.1 μm and 480.0 μm, respectively. Tensile tests of five specimens are performed, from which the ultimate strength is found to be 144MPa. High cycle fatigue tests of six specimens are also performed, from which the fatigue strength coefficient and the fatigue strength exponent are found to be 336MPa and –0.1514, respectively.",

keywords = "Axial Loading, Fatigue property, MEMS material, Static property",

author = "Park, {Jun Hyub} and Lee, {Chang Seung} and Kim, {Yun Jae}",

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PY - 2006

Y1 - 2006

N2 - This paper presents high cycle fatigue properties of a Al-3%Ti thin film, used in a RF (radio-frequency) MEMS switch for a mobile phone. The thickness and width of the thin film of specimen are 1.1 μm and 480.0 μm, respectively. Tensile tests of five specimens are performed, from which the ultimate strength is found to be 144MPa. High cycle fatigue tests of six specimens are also performed, from which the fatigue strength coefficient and the fatigue strength exponent are found to be 336MPa and –0.1514, respectively.

AB - This paper presents high cycle fatigue properties of a Al-3%Ti thin film, used in a RF (radio-frequency) MEMS switch for a mobile phone. The thickness and width of the thin film of specimen are 1.1 μm and 480.0 μm, respectively. Tensile tests of five specimens are performed, from which the ultimate strength is found to be 144MPa. High cycle fatigue tests of six specimens are also performed, from which the fatigue strength coefficient and the fatigue strength exponent are found to be 336MPa and –0.1514, respectively.

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KW - Fatigue property

KW - MEMS material

KW - Static property

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Fatigue test of Al-3% ti using axial loading testing machine for RF MEMS switch

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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