Add to ORKGThe effect of coatings and superficial oxide on the behavior of micro resonators deserves attention in view of its impact on real-life devices. To this purpose, in this work we focus on the thermoelastic damping in layered thin resonating beams. Including the effect of thermally imperfect interfaces, the quality factor is analytically computed. The results obtained are discussed and compared with available data
The obtainable quality factor for a nano beam resonator is limited due to internal damping such as t...
In this paper, a micro resonator is modeled as a thin rectangular microplate with thermoelastic damp...
Abstract — This paper focus the study of Quality factor of MEMS resonators are analyzed by varying t...
The effect of coatings and superficial oxide on the behavior of micro resonators deserves attention ...
Thermoelastic damping is recognized as a significant loss mechanism at room temperature in micro-sca...
AbstractThermoelastic damping is recognized as a significant loss mechanism at room temperature in m...
In this article, the recent and original results on the effect of thermoelastic damping (TED) on the...
The effect of thermoelastic dissipation as an energy loss mechanism in micromechanical resonators is...
Recent interest in thermoelasticity of vibrating structures is motivated by the unavoidable fact tha...
The dynamic properties and behaviors of microplate resonators have been experimentally shown to be s...
In the design of micro-electromechanical systems, which require a high quality factor, the dissipati...
We present a model and analytical expressions for the quality factors of microplates due to thermoel...
Under the condition that microresonators work at room temperature or vaccum, thermoelastic damping i...
The operation of micro-=nanobeams vibrating at very high frequencies, such as encountered in micro-=...
The importance of thermoelastic damping as a fundamental dissipation mechanism for small-scale mecha...
The obtainable quality factor for a nano beam resonator is limited due to internal damping such as t...
In this paper, a micro resonator is modeled as a thin rectangular microplate with thermoelastic damp...
Abstract — This paper focus the study of Quality factor of MEMS resonators are analyzed by varying t...
The effect of coatings and superficial oxide on the behavior of micro resonators deserves attention ...
Thermoelastic damping is recognized as a significant loss mechanism at room temperature in micro-sca...
AbstractThermoelastic damping is recognized as a significant loss mechanism at room temperature in m...
In this article, the recent and original results on the effect of thermoelastic damping (TED) on the...
The effect of thermoelastic dissipation as an energy loss mechanism in micromechanical resonators is...
Recent interest in thermoelasticity of vibrating structures is motivated by the unavoidable fact tha...
The dynamic properties and behaviors of microplate resonators have been experimentally shown to be s...
In the design of micro-electromechanical systems, which require a high quality factor, the dissipati...
We present a model and analytical expressions for the quality factors of microplates due to thermoel...
Under the condition that microresonators work at room temperature or vaccum, thermoelastic damping i...
The operation of micro-=nanobeams vibrating at very high frequencies, such as encountered in micro-=...
The importance of thermoelastic damping as a fundamental dissipation mechanism for small-scale mecha...
The obtainable quality factor for a nano beam resonator is limited due to internal damping such as t...
In this paper, a micro resonator is modeled as a thin rectangular microplate with thermoelastic damp...
Abstract — This paper focus the study of Quality factor of MEMS resonators are analyzed by varying t...