Effect of Conjugate Heat Transfer on MEMS-Based Thermal Shear Stress Sensor

机译：共轭传热对基于MEMS的热剪应力传感器的影响

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The effect of conjugate heat transfer resulting from a Micro-electromechanical Systems (MEMS)-based thermal shear stress is investigated. Due to the length scale disparity and large solid-fluid thermal conductivity ratio, a two-level computation is used to examine the relevant physical mechanisms and their influences on wall shear stress. The substantial variations in transport properties between the fluid and solid phases and their interplay in regard to heat transfer and near-wall fluid flow structures are investigated. It is demonstrated that for the state-of-the-art sensor design, the buoyancy effect can noticeably affect the accuracy of the shear stress measurement.

机译：研究了基于微机电系统（MEMS）的热剪切应力对共轭传热的影响。由于长度尺度的差异和较大的固液导热系数，采用了两级计算来研究相关的物理机理及其对壁切应力的影响。研究了液相和固相之间传输特性的实质性变化以及它们之间在热传递和近壁流体流动结构方面的相互作用。结果表明，对于最新的传感器设计，浮力效应会明显影响剪切应力测量的准确性。

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来源
《Advances in Electronic Packaging 2005 pt.C》|2005年|P.2213-2228|共16页
会议地点 San FranciscoCA(US)
作者
Jianghui Chao; Wei Shyy; Siddharth S Thakur; Mark Sheplak; Renwei Mei;
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作者单位

Department of Aerospace Engineering The University of Michigan, Ann Arbor, MI 48109;

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原文格式 PDF
正文语种 eng
中图分类封装及散热问题;
关键词
MEMS-based thermal shear stress sensor; conjugate heat transfer;

机译：基于MEMS的热剪应力传感器;共轭传热;
入库时间 2022-08-26 14:23:19

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专利

1. Effect of conjugate heat transfer on MEMS-based thermal shear stress sensor [J] . Chao JH, Shyy W, Thakur SS, Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2005,第3期

机译：共轭传热对基于MEMS的热剪应力传感器的影响
2. Mixed convection induced by MEMS-based thermal shear stress sensors [J] . Appukuttan A., Shyy W., Sheplak M., Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2003,第3期

机译：基于MEMS的热剪应力传感器引起的混合对流
3. Numerical study on conjugate heat transfer in laminar fully developed flow with temperature dependent thermal properties through an externally heated SiC/SiC composite pipe and thermally induced stress [J] . Hueseyin Yapici, Gamze Bastuerk, Bilge Albayrak Energy Conversion & Management . 2005,第4期

机译：层状完全展开流中共轭传热的数值研究，其条件是通过外部加热的SiC / SiC复合管和热致应力实现温度相关的热特性
4. Effect of Conjugate Heat Transfer on MEMS-Based Thermal Shear Stress Sensor [C] . Jianghui Chao, Wei Shyy, Siddharth S Thakur, American Society of Mechanical Engineers(ASME) Summer Heat Transfer Conference(HT2005); 20050717-22; San Francisco,CA(UA) . 2005

机译：共轭传热对基于MEMS的热剪应力传感器的影响
5. A sapphire MEMS-based optical shear stress sensor for high-temperature applications. [D] . Mills, David Alan. 2014

机译：基于蓝宝石MEMS的光学剪切应力传感器，用于高温应用。
6. Flow organization and heat transfer in turbulent wall sheared thermal convection [O] . Alexander Blass, Xiaojue Zhu, Roberto Verzicco, -1

机译：湍流墙体剪切热对流中的流量组织和传热
7. A micromachined flow shear-stress sensor based on thermal transfer principles [O] . Liu Chang, Huang Jin-Biao, Zhu Zhenjun (Alex), 1999

机译：基于热传递原理的微机械流剪应力传感器

Effect of Conjugate Heat Transfer on MEMS-Based Thermal Shear Stress Sensor

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