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1)  tip heat transfer
叶顶传热
1.
Effects of squealer tips on blade aerodynamic performances and tip heat transfer in a gas turbine were investigated.
应用数值方法研究了燃气透平动叶顶部凹槽对动叶气动性能及叶顶传热的影响。
2.
The variety of the tip heat transfer coefficient on the groove bottom mainly occurs in the front.
通过施加非定常边界条件模拟上游静叶尾迹,分析了非定常流动对动叶叶顶传热的影响。
2)  Single Tip-Sensor
单叶顶传感器
1.
Research of Non-contact Measuring for Steam Turbine Blade Vibration Monitoring Based on Single Tip-Sensor;
本文综合了国内外叶片振动测量技术的现状与发展,提出了用单叶顶传感器的间断相位测量法来测量叶片的振动幅度和频率。
3)  Parietal lobe
顶叶
1.
005) in the left occipital lobe and parietal lobe.
结果:同正常对照相比,海洛因成瘾组在左侧枕叶(楔前叶、枕上回),左侧顶叶(顶下小叶)出现灰质密度下降(P<0。
2.
Objective To investigate the effects of exogenous calcitonin gene related peptide(CGRP) and nerve growth factor(NGF) on the expression of FasmRNA in rat parietal lobe and hippocampus with focal cerebral ischemia/reperfusion(I/R)and to explore the effect and mechanism of CGRP and NGF on ischemia brain tissue.
目的研究外源性降钙素基因相关肽(CGRP)和神经生长因子(NGF)对局灶性脑缺血再灌注大鼠顶叶、海马FasmRNA表达的影响,探讨降钙素基因相关肽和神经生长因子对缺血再灌注脑神经组织的作用。
3.
The relations between BOLD response and FA values in fronto-parietal lobe were statistically analyzed.
将两者叠加,选取双侧额顶叶白质兴趣区测量其部分FA值。
4)  parietal cortex
顶叶
1.
A patient with damaged bilateral parietal cortex was the subject in this study.
本实验以一例典型双侧顶叶损伤患者为研究对象,以数字和几何形状为材料,采用形状和颜色特征识别任务,主要考察了顶叶及空间信息是否影响视觉特征捆绑。
2.
The brain regions involve in fusiform gyrus(V4) and the specific areas of parietal cortex.
本文总结了最受关注的字形-颜色联觉的研究成果,认为联觉发生在视知觉加工的早期阶段,与知觉在本质上有许多共同特征,其脑区涉及梭状回(V4)和顶叶。
5)  blade tip
叶顶
6)  non-Fourier heat conduction
非傅立叶热传导
1.
A spatial and temporal multiple scale method is studied to simulate the phenomenon of non-Fourier heat conduction in periodic heterogeneous materials .
 研究了一种空间 时间多尺度的方法,来分析周期性材料中非傅立叶热传导问题。
2.
In this paper,the temperature field obtained from combining non-Fourier heat conduction model for TBCs and Fourier heat conduction model for substrate is used as the thermal load in the finite element analyses of thermal stress and J-integral of an edge crack in the TBCs.
将非傅立叶热传导模型(用于超薄热涂层)与傅立叶热传导模型(用于结构层)相结合求解温度场,运用有限元法求解热涂层热应力和裂纹驱动力,并分析结构层材料热扩散系数的变化对热涂层的热力学性能(温度场、应力场和断裂性能)的影响。
补充资料:常绿阔叶落叶阔叶混交林
出现于亚热带和暖温带的过渡带或亚热带山地常绿阔叶林上界的森林植被类型。由常绿阔叶树和落叶阔叶树混合组成。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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