Analytical Solution of Thermoelastic Damping in a Nanoscale Beam using the Fractional Order Theory of Thermoelasticity

Abbas Ibrahim A.; Hobiny Aatef D.

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Analytical Solution of Thermoelastic Damping in a Nanoscale Beam using the Fractional Order Theory of Thermoelasticity

机译：基于热弹性分数阶理论的纳米级梁热弹性阻尼的解析解

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In this paper, we study the generalized thermoelastic vibration of a bounded nano-beam resonator under fractional order theory of thermoelasticity. The theory of generalized thermoelasticity with one relaxation time can be established in the limit as the special cases of the present model. The effect of fractional parameter is investigated on the nano-beam resonator for beams with clamped ends. Analytical expressions for the deflection, temperature change, frequency shift, and thermoelastic damping have been derived for the beam. The effect of the fractional parameter on the variation of frequency shifts and thermoelastic damping is analyzed graphically.

机译：在本文中，我们根据分数阶热弹性理论研究了有界纳米束谐振器的广义热弹性振动。作为模型的特例，可以在一个极限内建立具有一个松弛时间的广义热弹性理论。研究了分数参数对纳米束谐振器两端束紧光束的影响。得出梁的挠度，温度变化，频移和热弹性阻尼的解析表达式。用图形分析了分数参数对频移和热弹性阻尼变化的影响。

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《International journal of structural stability and dynamics》 |2016年第9期|共11页
作者
Abbas Ibrahim A.; Hobiny Aatef D.;
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正文语种 eng
中图分类应用力学;
关键词
Fractional order theory of thermoelasticity; nano-beam resonator; free vibration; thermoelastic damping; frequency shift;

机译：热弹性分数阶理论;纳米束谐振器;自由振动;热弹性阻尼;频移;

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1. Analytical Solution of Thermoelastic Damping in a Nanoscale Beam using the Fractional Order Theory of Thermoelasticity [J] . Abbas Ibrahim A., Hobiny Aatef D. International journal of structural stability and dynamics . 2016,第9期

机译：基于热弹性分数阶理论的纳米级梁热弹性阻尼的解析解
2. Size-Dependent Strain Gradient-Based Thermoelastic Damping in Micro-Beams Utilizing a Generalized Thermoelasticity Theory [J] . Borjalilou Vahid, Asghari Mohsen International journal of applied mechanics . 2019,第1期

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3. Analytical and numerical solutions for thick beams with thermoelastic damping [J] . Parayil Dileesh V., Kulkarni Salil S., Pawaskar Dnyanesh N. International Journal of Mechanical Sciences . 2015,第Null期

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4. Axisymmetric Deformation in a Micropolar Thermoelastic Medium under Fractional Order Theory of Thermoelasticity [C] . Rajneesh Kumar, Kulwinder Singh, Devinder Singh Pathania Recent Advances in Fundamental and Applied Sciences Conference . 2017

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Analytical Solution of Thermoelastic Damping in a Nanoscale Beam using the Fractional Order Theory of Thermoelasticity

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