A trajectory planning method on error compensation of residual height for aero-engine blades of robotic belt grinding

While the traditional trajectory planning methods are used in robotic belt grinding of blades with an uneven machining allowance distribution, it is hard to obtain the preferable profile accuracy and surface quality to meet the high-performance requirements of aero-engine. To solve this problem, a novel trajectory planning method is proposed in this paper by considering the developed interpolation algorithm and the machining allowance threshold. The residual height error obtained from grinding e...     

基于响应曲面法的成型CBN砂轮高频感应钎焊温度均匀性研究

成型砂轮在高频感应钎焊过程中存在温度分布不均匀导致钎焊质量无法满足使用要求，这是长期困扰超硬磨料砂轮高频感应钎焊技术的难题。针对该问题，提出温度均匀性的表征方法，以温度均匀度和平均温度为响应值，基于有限元仿真数据获得了响应曲面法模型。基于该模型，采用方差分析成型砂轮感应钎焊温度均匀性的影响因素显著程度由大到小依次为加热间隙、感应电流、导磁体长度。以平均温度值和温度均匀度为优化目标，基于响应曲面法优化线圈结构和工艺参数，开展了感应加热试验，证明响应曲面法模型优化结果的误差在6.94%以内。高频感应钎焊的成型立方氮化硼（cubic boron nitride，CBN）砂轮宏观形貌显示，钎料在成型面各处铺展的一致性好，表明钎焊过程中在成型面的温度分布具有较好的均匀性。     

Adaptive sliding mode fault-tolerant control for satellite attitude tracking system

In this paper, an adaptive modified sliding mode control approach is developed for attitude tracking of a nano-satellite with three magnetorquers and one reaction wheel. A sliding variable is chosen based on finite-time convergence of the nano-satellite attitude tracking error and avoiding the singularity of the control signal. The control gain of the proposed method is developed adaptively to reduce the tracking error and improve the closed-loop control performance. The sliding variable and adaptive parameter are also employed in the reaching phase of the control law to decrease the chattering phenomenon. In addition, the finite-time convergence of attitude variables in the presence of actuator faults, inertia uncertainty, and external disturbances is proved using the extended Lyapunov theorem. The simulations are conducted to evaluate the performance of the proposed method according to different evaluation criteria. Monte Carlo simulations are also used to survey the reliability of the system in the presence of the mentioned condition.     

星间光通信精跟踪系统的模糊自整定PID控制及仿真实验

在星间光通信技术中，精跟踪系统对于整个光通信链路的建立和保持至关重要。本文针对精跟踪系统的被控对象——快速反射镜建模得出传递函数，在此基础上进行参数辨识而得出完整的数学模型。采用模糊自整定PID控制器来优化控制效果，提升对扰动的抑制能力。通过Simulink仿真实验对二者的控制性能进行了对比，并在仿真过程中加入扰动量以试验二者的鲁棒性。仿真实验结果表明：模糊自整定PID控制器在精跟踪系统的控制过程中有显著的扰动抑制能力。     

卫星动量轮灵敏性变异分析

基于模糊理论提出一种非线性卫星动量轮灵敏性变异分析的数值方法,以工程实际中的模糊相似关系转化为空间向量的模糊等价关系,来评估稳定系统的总体变异本质特征.并通过仿真均匀分布、线性分布以及周期分布的时间数据序列验证了该模型的可行性；以3套卫星动量轮实际稳态运转实验见证了该方法的实用性和有效性.其中动量轮A的最小灵敏系数为0.678，大于0.5阈值,表明其运转期间灵敏性十分良好；动量轮B的最小灵敏系数为0.439，小于0.5阈值,其运转期间灵敏性有所变异；动量轮C的最小灵敏系数等于0.5阈值,其关系最为模糊并介于稳定与变异之间.该模型实时预测并描述了动量轮灵敏性变异过程,且适用于诸多航天领域的非线性乏信息问题.      

外圆无心磨削工艺对轴承套圈成型质量的影响

为了得到取消外圆修磨的外圆无心磨削工艺对轴承套圈外圈的影响规律，本文以6202深沟球轴承套圈外圈为研究对象，通过外圆无心磨削试验，分析了取消外圆修磨后新无心外圆磨削工艺对套圈圆度、直径的影响，并利用谐波控制原理分析磨削加工中谐波对轴承套圈外圈圆度的控制。研究结果表明：新工艺可以满足6062轴承套圈的尺寸精度要求，外圆无心磨削时采用加工余量先大后小的方法，有助于改善轴承套圈的外圆圆度，缩短工艺流程，减少生产时间，提高生产效率；无心磨削可以降低轴承套圈表面低次谐波的幅值，外圆超精加工可以有效降低套圈表面高次谐波，从而达到控制圆度的目的。取消外圆修磨的新磨削工艺不但能提高产品质量，还能提升生产效率。     

Influence of alumina abrasive tool wear on ground surface characteristics and corrosion properties of K444 nickel-based superalloy

K444 nickel-based superalloy is an important material to manufacture the gas turbine due to its excellent mechanical properties at high temperatures and corrosion resistance. Currently,grinding is the mostly used method for the surface finish of the K444 alloy components. However,few studies worked on the effects of the abrasive tool wear on the ground surface characteristics and corrosion properties of K444 alloy. This study uses two different-type alumina abrasive tools, i.e.,white alumina(WA)...     

Development of a new high-shear and low-pressure grinding wheel and its grinding characteristics for Inconel718 alloy

Nickel-based alloy has been widely used due to its outstanding mechanical properties. However, Nickel-based alloy is a typical difficult-to-machine material, which is a great constrain for its application in the manufacturing field. To improve the surface quality of the ground workpiece, a new high-shear and low-pressure grinding wheel, with high ratio of tangential grinding force to normal grinding force, was fabricated for the grinding of selective laser melting (SLM) manufactured Inconel718 alloy. The principle of high-shear and low-pressure grinding process was introduced in detail, which was quite different from the conventional grinding process. The fabrication process of the new grinding wheel was illustrated. A serial of experiments with different processing parameters were carried out to investigate the grinding performance of the developed grinding wheel via analyzing surface roughness and surface morphology of the ground workpiece. The optimal processing parameters of high-shear and low-pressure grinding were obtained. The surface roughness of ground workpiece was reduced to 0.232 μm from the initial value of 0.490 μm under the optimal grinding conditions. It was found that the initial scratches on the ground workpiece were almost completely removed after the observations with the metalloscopy and the field-emission scanning electron microscopy (FE-SEM). The capability of the newly developed high-shear and low-pressure grinding wheel was validated.     

碳纤维陶瓷基复合材料的磨削加工研究进展

综述了磨削参数、纤维方向、不同加工方式以及其他因素对磨削力和表面质量的影响规律；总结了不同加工方式下的碳纤维陶瓷基复合材料的磨削机理；展望了碳纤维陶瓷基复合材料磨削加工的研究方向。     

力矩输出能力最优化混合执行机构操纵律设计

当航天器执行高动态敏捷机动或者姿态动态跟踪控制等任务时，常使用控制力矩陀螺（control moment gyroscope，简称CMG）和飞轮（reaction wheel，简称RW）构成的混合执行机构来提供大力矩。提出了基于力矩输出能力最优化的混合执行机构操纵律，从几何角度出发，给出了力矩输出能力最优的CMG框架角速度和RW角加速度，通过引入参数，并讨论参数的设置的最优，使得框架转速误差和输出力矩误差的混合二次型达到最小，保证了混合执行机构在输出力矩误差最小的情况下，力矩输出能力最优。以金字塔构型的CMG集群和正交的RW集群构成的混合执行机构为例，对基于力矩输出能力最优化的混合执行机构操纵律进行合理化分析，证明了引入参数的作用，并且证明了混合执行机构不存在CMG奇异情况。仿真结果表明，基于力矩输出能力最优化的混合执行机构操纵律解决了CMG奇异的问题并使得RW不陷入饱和，输出力矩误差较小，输出力矩能力强，能够应用于航天器大角度机动任务。