用光束偏转层析迭代法重建三维位相物体

本文结合位相物体的先验知识，研究了用光束偏转层迭代法重建三维位物体的重建精度及算法，内插函数，采样方式，视角范围和数据噪声的影响，作为一个应用实例，诊断了气体温度场某一截面的温度分布，并与热电偶的测量值进行了比较。     

铸造SiCp／ZL101复合材料的组织与性能

本文利用半固态搅拌铸造法制备了ＳｉＣｐ／ＺＬ１０１复合材料，对其组织和某些性能进行了研究，结果表明：ＳｉＣｐ在基体中分布均匀，无严重团聚现象，与基体结合良好，与基体合金相比，耐磨性，硬度有显著提高。     

CCD图像系统与实时全息技术在超音速风洞流场显示中的应用

利用ＣＣＤ微机图像系统和实时全息技术，实时地显示并数字化采集在０．３ｍ×０．３ｍ跨超音速风洞中，Ｍ＝１．９９时绕钝锥及攻角为１５°尖锥的三维复杂流场的全息再现干涉图。加用频闪光调制器解决了省去脉冲激光器而只用同一连续氦氖激光实现清晰地实时监视，同时以两倍帧频连续瞬间采图的兼容问题　，物光参考光都用平行光，良好自然的干板制备、复位、使实时全息用于风洞实验不再困难。     

CuAl2／Al复合材料的固相反应合成技术及与Al液的接触反应研究

研究了Ａｌ，Ｃｕ在真空状态下的纯固相接触反应情况，试验表明，Ａｌ粉、Ｃｕ粉在６００℃，保温６ｈ时，两者以完全发生反生成ＣｕＡｌ２（θ相），生成的θ相沿铝基体组织晶界分布并在结晶过程中具有择优取向特性，形成仅含沿晶界方向的主干与垂直于晶界的二次晶轴的树枝晶形貌。     

时频测量的新技术——相位重合点检测技术

近年来相位重合点检测技术和周期性信号参数测量各种高精度的方法在国内外得到了广泛应用。对这种新技术的基本原理、所派生的频率、周期、相位差和时间间隔测量方法作了介绍。这些新方法测量精度高,测量频率范围宽,设备构成比较简单,在时频测量领域将获得越来越广泛的应用,可能逐渐取代已有的某些测量技术,并可在其它量测量领域获得推广。     

非平稳信号的双重中值容错平滑算法

平滑是消除或削弱测量数据随机误差时常用的数据处理手段。文章建立了一组新的非平稳数据序列容错平滑算法，其采用两阶段两次滑动中值与滑动均值平滑组合，实现了数据简化与平滑的统一。理论分析和仿真计算结果证实，算法可有效避免斑点型异常数据的不利影响，有效削弱随机误差的影响，改进数据处理精度和数据处理结果可靠性。     

防静电白色热控涂层的空间环境性能试验

通过在氧化锌晶格中掺入重金属离子，得到具有防静电功能的白色颜料，再以丙烯酸树脂为粘合剂制备出空间飞行器外表面用的ACR－1防静电白色热控涂层；研究了空间环境效应（包括紫外辐照，电子和质子辐照）对该热控涂层太阳吸收率的影响并与有机硅白色热控涂层进行了比较，地面模拟空间环境试验研究结果证明，ACR－1防静电白色热控涂层具有良好的空间稳定性。     

基于FPGA的高准确度数字频率信号源设计

介绍了直接数字频率合成技术的实现方法,分析了其优越的技术特性。根据其特性,利用FPGA设计了高准确度的数字频率信号源。仿真结果表明,与传统的信号源相比,使用该方法实现的信号源,其信号种类多,准确度高,满足测试设备数字化、软件化的趋势。     

A shortcut to marking 3D target curves on curved surface via a galvanometric laser scanner

Marking arbitrary three-dimensional(3D) target curves on given objects with curved surface is required in many industrial fields, such as fabric prepreg placement in composite material part fabrication, product assembly, surface painting for decoration, etc. A shortcut to the solution of this intractable problem is proposed by utilizing a galvanometric laser scanner(GLS) with the aid of a camera. Without using the existing tedious GLS calibration procedures,the proposed method directly establishes a mapping between the 3D coordinates of the laser spots on the object surface and the control voltages of the scanner. A single-hidden layer feedforward neural network(SLFN) is employed to model the mapping. By projecting a dense grid of laser spots on the object to be marked and simultaneously taking only one image, the SLFN model is trained in minutes via a linear solving mechanism. Experiments demonstrate that the trained SLFN model has a good generalization performance for marking 3D target curves. The 3D laser marking errors on experimental objects are less than 0.5 mm. The proposed method is especially suitable for on-site use and can be conveniently extended to multiple GLSs for marking large complex objects.     

Advances in fabrication of ceramic corundum abrasives based on sol–gel process

Corundum abrasives with good chemical stability can be fabricated into various free abrasives and bonded abrasive tools that are widely used in the precision machining of various parts. However, these abrasives cannot satisfy the machining requirements of difficult-to-machine materials with high hardness, high strength, and strong wearing resistance. Although superhard abrasives can machine the above-mentioned materials, their dressing and manufacturing costs are high. By contrast, ceramic corundum abrasives fabricated by sol–gel method is a cost-effective product between conventional and superhard abrasives. Ceramic corundum abrasives exhibit self-sharpening and high toughness. In this review, the optimization methods of ceramic corundum abrasive properties are introduced from three aspects: precursor synthesis, particle shaping, and sintering. Firstly, the functional mechanism of seeds and additives on the microstructural and mechanical properties of abrasives is analyzed. Specifically, seeds can reduce the phase transition temperature and improve fracture toughness. The grain size and uniformly dense structure can be controlled by applying an appropriate amount of multicomponent additives. Then, the urgent need of engineering application and machinability of special shape ceramic corundum abrasives is reviewed, and three methods of abrasive shaping are summarized. The micromold replication technique is highly advanced and can be used to prepare functional abrasives. Additionally, the influence of a new sintering method, namely, two-step sintering technique, on the microstructural and mechanical performance of ceramic corundum abrasives is summarized. Finally, the challenge and developmental trend of the optimization of ceramic corundum abrasives are prospected.