Logo der Universität Wien

A review of the most important failure, reliability and nonlinearity aspects in the development of microelectromechanical systems (MEMS)

Authors/others:Rafiee, Peyman (Technische Universität Wien) Khatibi, Golta (Technische Universität Wien) Zehetbauer, Michael
Abstract:Purpose - The purpose of this paper is to provide an overview of the major reliability issues of microelectromechanical systems (MEMS) under mechanical and environmental loading conditions. Furthermore, a comprehensive study on the nonlinear behavior of silicon MEMS devices is presented and different aspects of this phenomenon are discussed. Design/methodology/approach - Regarding the reliability investigations, the most important failure aspects affecting the proper operation of the MEMS components with focus on those caused by environmental and mechanical loads are reviewed. These studies include failures due to fatigue loads, mechanical vibration, mechanical shock, humidity, temperature and particulate contamination. In addition, the influence of squeeze film air damping on the dynamic response of MEMS devices is briefly discussed. A further subject of this paper is discussion of studies on the nonlinearity of silicon MEMS. For this purpose, after a description of the basic principles of nonlinearity, the consequences of nonlinear phenomena such as frequency shift, hysteresis and harmonic generation and their effects on the device performance are reviewed. Special attention is paid to the mode coupling effect between the resonant modes as a result of energy transfer because of the nonlinearity of silicon. For a better understanding of these effects, the nonlinear behavior of silicon is demonstrated by using the example of Si cantilever beams. Findings - It is shown that environmental and mechanical loads can influence on proper operation of the MEMS components and lead to early fracture. In addition, it is demonstrated that nonlinearity modifies dynamic response and leads to new phenomena such as frequency shift and mode coupling. Finally, some ideas are given as possible future areas of research works. Originality/value - This is a review paper and aimed to review the latest manuscripts published in the field of reliability and nonlinearity of the MEMS structures.
Number of pages:13
Date of publication:2017
Journal title:Microelectronics International
Digital Object Identifier (DOI):http://dx.doi.org/10.1108/MI-03-2015-0026
Publication Type:Review
Research Group Physics of Nanostructured Materials
Faculty of Physics

University of Vienna
Boltzmanngasse 5
A-1090 Vienna
T: +43-1-4277-72802
F: +43-1-4277-872802
University of Vienna | Universitätsring 1 | 1010 Vienna | T +43-1-4277-0