基于体绘制的圆柱体构件缺陷三维重构方法

针对圆柱体构件内部缺陷问题,以超声检测技术为手段,采用体绘制三维重构技术,对构件内部缺陷进行三维重构。首先对圆柱体进行超声检测,并根据采集到的数据提取出其每一个截面的完整信息。然后进行B扫描成像,对成像图像像素点重组。最后利用体绘制技术对缺陷进行三维重构。结果证明,该方法重构出圆柱体构件中心孔、偏心孔缺陷效果良好,与实际构件相吻合,且大小误差在允许范围内。     

A unified model incorporating yield,burn‐in,and reliability

The correlated improvement in yield and reliability has been observed in the case studies on integrated circuits and electronic assemblies. This paper presents a model that incorporates yield and reliability with the addition of a burn‐in step to explain their correlated improvement. The proposed model includes as special cases several yield and reliability models that have been previously published and thus provides a unifying framework. The model is used to derive a condition for which yield functions can be multiplied to obtain the overall yield. Yield and reliability are compared as a function of operation time, and an analytical condition for burn‐in to be effective is also obtained. Finally, Poisson and negative binomial defects models are further considered to investigate how reliability is based on yield. © 2004 Wiley Periodicals, Inc. Naval Research Logistics, 2004.     

希尔伯特-黄变换在脉冲涡流信号消噪与识别中的应用

针对传统方法无法有效识别不同尺寸细小裂纹所产生的脉冲涡流信号,提出一种基于希尔伯特-黄变换的脉冲涡流信号消噪与识别算法。对脉冲涡流信号进行集成经验模态分解并通过归一化自相关函数及其方差特性分选出含有噪声的本征模态函数;对含噪声的本征模态函数进行阈值消噪并与未做处理的本征模态函数重构成无噪声信号;对无噪声信号进行希尔伯特-黄变换并计算出希尔伯特边际谱;根据希尔伯特边际谱的差异识别出不同细小尺寸的表面与下表面裂纹。实验结果表明了所提方法的有效性,经过集成经验模态分解消噪,消除了噪声对脉冲涡流信号的干扰;而基于希尔伯特-黄变换的方法则能够有效识别出不同尺寸的裂纹。     

地缘缺陷是制约大国崛起的重要因素：以印度为例

历史上，地缘因素对大国崛起起过重要的作用。地缘优势有利于大国的崛起，而地缘缺陷则制约着大国的崛起，导致其崛起失败或难以崛起。印度是正在崛起的新兴大国。然而，印度所处的地缘环境存在明显缺陷，这是制约印度崛起的重要因素。印度只有对自身的地缘缺陷进行合理改造，扬长避短，才能顺利实现崛起目标。     

流变抛光结合HF酸刻蚀提升熔石英元件抗激光损伤性能

为了提升紫外熔石英元件抗激光损伤性能,针对传统加工方法在加工过程中产生的破碎性缺陷和污染性缺陷,本文提出了使用磁流变抛光+HF刻蚀组合工艺提升紫外熔石英元件抗激光损伤性能的方法。磁流变抛光特有的剪切去除原理能够有效去除传统加工过程产生的破碎性缺陷,同时不产生新的破碎性缺陷。HF酸动态酸刻蚀能够有效减少加工过程中产生金属元素污染。实验结果表明：经过组合工艺处理的熔石英样品,在7J/cm₂.3ω激光通量辐照下损伤密度由0.2/mm₂降至0.008/mm₂,在8J/cm₂.3ω激光通量辐照下损伤密度由1/mm₂降至0.1/mm₂,对紫外熔石英元件损伤性能提升显著。     

Investigation on the process parameters of TIG-welded aluminum alloy through mechanical and microstructural characterization

Multi-pass TIG welding was conducted on plates (15×300×180 mm3) of aluminum alloy Al-5083 that usually serves as the component material in structural applications such as cryogenics and chemical processing industries. Porosity formation and solidification cracking are the most common defects when TIG welding Al-5083 alloy, which is sensitive to the welding heat input. In the experiment, the heat input was varied from 0.89 kJ/mm to 5 kJ/mm designed by the combination of welding torch travel speed and welding current. Tensile, micro-Vicker hardness and Charpy impact tests were executed to witness the impetus response of heat input on the mechanical properties of the joints. Radiographic inspection was performed to assess the joint's quality and welding defects. The results show that all the specimens displayed inferior mechanical properties as compared to the base alloy. It was established that porosity was progressively abridged by the increase of heat input. The results also clinched that the use of me-dium heat input (1-2 kJ/mm) offered the best mechanical properties by eradicating welding defects, in which only about 18.26% of strength was lost. The yield strength of all the welded specimens remained unaffected indicated no influence of heat input. Partially melted zone (PMZ) width also affected by heat input, which became widened with the increase of heat input. The grain size of PMZ was found to be coarser than the respective grain size in the fusion zone. Charpy impact testing revealed that the absorbed energy by low heat input specimen (welded at high speed) was greater than that of high heat input (welded at low speed) because of low porosity and the formation of equiaxed grains which induce better impact toughness. Cryogenic (-196 C) impact testing was also performed and the results corroborate that impact properties under the cryogenic environment revealed no appreciable change after welding at designated heat input. Finally, Macro and micro fractured surfaces of tensile and impact specimens were analyzed using Stereo and Scanning Electron Microscopy (SEM), which have supported the experimental findings.     

基于圆柱体缺陷构件的超声探伤重构研究

圆柱体构件中非轴对称人造缺陷偏心圆孔的超声探伤一直是无损检测的难点。基于脉冲反射原理设计超声实验平台,根据检测回波信号判定偏心圆孔缺陷所呈现的特征。在实验研究基础上,针对声场在圆柱体工件内部的传播情况,根据惠更斯原理以圆柱体为发射声源,基于k-wave仿真工具箱建立仿真平台,并利用声学传感器接收声波信号,设计的仿真平台能够实现360°同时刻采集工件的发射信号,同时利用传播过程中声压强弱的变化构建声场模型。根据采集的信号采用逆时反演重构模型,直观可视化地重构了内部缺陷的位置形状信息。     

基于BIST的3D SRAM中TSV开路测试算法研究与实现

基于3D-IC技术实现的3D SRAM,其电路中使用了大量的TSV。目前TSV制造工艺尚未成熟,使得TSV容易出现开路或短路故障,从而给3D SRAM的测试带来新的挑战。现有的2D BIST测试方式能够探测到3D SRAM中存在的故障,但并不能判定是TSV故障还是存储器本身故障；TSV专用测试电路虽然能够探测出TSV的故障,但需要特定的测试电路来实现,这就增加了额外的面积开销,同时加大了电路设计复杂度。基于此,本文提出了一种使用测试算法来探测TSV开路故障的方法,在不使用TSV专用测试电路且不增加额外面积开销的情况下通过BIST电路解决3D SRAM中TSV的开路故障检测问题。结果显示该TSV测试算法功能正确,能够准确探测到TSV的开路故障,并快速定位TSV的开路位置。     

提升熔石英抗激光损伤性能的磁流变与HF刻蚀结合方法

为提升紫外熔石英元件抗激光损伤性能,针对传统加工方法在加工过程中产生的破碎性缺陷和污染性缺陷,提出使用磁流变抛光结合HF酸刻蚀的组合工艺提升紫外熔石英元件抗激光损伤性能的方法。磁流变抛光特有的剪切去除原理能够有效去除传统加工过程产生的破碎性缺陷,同时不产生新的破碎性缺陷。HF酸动态酸刻蚀能够有效减少加工过程中产生的金属元素污染。实验结果表明:经过组合工艺处理的熔石英样品,在7J/cm2·3ω激光通量辐照下损伤密度由0.2mm~~(-2)降至0.008mm~(-2),在8J/cm2·3ω激光通量辐照下损伤密度由1mm~(-2)降至0.1mm~(-2),其元件抗损伤性能提升显著。     

预制缺陷柱壳结构的等效裂纹分析方法

针对传统有限元法在分析预制缺陷柱壳时出现的应力/应变计算精度不足、无法有效指导工程实践的问题,提出了一种具有高冗余度的等效裂纹分析方法。将预制缺陷视作典型裂纹,基于奇异裂纹元法对其进行裂纹稳定性分析,并根据稳定性分析结果来评估预制缺陷柱壳的结构完整性。通过该方法得到的分析结果具有比常规有限元分析更高的可靠性,对于导弹线式爆炸分离装置等工作环境恶劣、风险系数较高的预制缺陷柱壳结构而言,该方法有助于提升其设计的安全裕度,具有一定的工程实用性。