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In order to study reasonable sintering technological parameters and appropriate copper powder size range of micro heat pipe
(MHP) with the sintered wick, the forming principle of copper powders in wicks and MHP’s heat transfer capabilities were first
analyzed, then copper powders with different cell sizes and dispersions were sintered in RXL-12-11 resistance furnace under
the protection of the hydrogen at different sintering temperatures for different durations of sintering time, and finally
the sintered wicks’ scanning electron microscope (SEM) images and their heat transfer capabilities were analyzed. The results
indicate that the wick sintered with copper powders of larger cell size or smaller size range has better sintering properties
and larger heat transfer capabilities; and that the increase of either sintering temperatures or sintering time also helps
to improve the wick’s sintering properties and heat transfer capabilities, and the former affects more obviously than the
latter. Considering both its manufacturing cost and performance requirements, it is recommended that copper powders with the
size range of 140–170 μm are sintered at 900–950°C for 30–60 min in practical manufacturing. In addition, two approaches to
improve wick’s porosity are also proposed through theoretical analysis, which suggests that the larger the wick’s porosity,
the better the heat transfer capabilities of the MHP. 相似文献
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对于复杂结构的复杂产品零件,借助ICT测量设备获取产品零件的层层切片图像,并通过分析计算、数字图像处理和CAD软件等辅助工具,建立产品的几何模型。着重论述了将已经经过数字图像处理过的ICT切片的产品数字化模型,通过NURBS曲线、曲面进行三维重建等方面的应用研究,并对基于此方法重建的产品模型进行了误差分析。 相似文献
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利用数字图像处理技术已成为解决复杂产品样件反求设计与再设计问题的重要辅助手段,而针对复杂零件 ICT(IndustrialComputedTomography)切片图像的边界轮廓检测和提取精度对反求建模的精度影响至关重要。本文 的主要目的是针对有噪声信号影响的数字图像,在比较现有边界检测与提取算法的基础上,提出了基于亚像素精度 的边界监测与提取算法。为了对该方法的精度进行分析,设计了一个可进行微量驱动控制的工作平台,通过记录工 作平台的移动量和通过边界检测与提取算法得到的位移量之间进行比较的方法分析其精度。通过对误差量使用统 计的方法进行分析,证明了该算法不但能够达到1/4像素的亚像素精度,而且还有计算效率高和计算机开销量小的 特点。 相似文献
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目前微电子与光电子芯片对散热要求日益增高,烧结式微热管已经成为其理想的散热元件,对微热管进行快速抽真空,使微热管中的工质量与真空度符合要求,是决定其制造质量与成本的重要因素。通过对微热管的工作原理及其抽真空-工质灌注-冷焊的制造方法进行分析,提出一种分别采用工质冻结-抽真空-冷焊法与二次除气-冷焊法对烧结式微热管进行抽真空的方法。大量的实验表明,采用所提出的制造方法不仅可以保证微热管中工质量与真空度达到要求,而且抽真空的时间大约比原有方法节省了2/3,具有很好的传热性能。 相似文献