射线计算机成像技术在发动机变壁厚产品检测中的试验研究

针对液体火箭发动机离心轮、涡轮静子等厚度变化大的复杂激光选区熔化成形（SLM）钢构件在常规X射线胶片照相检测（RT）时,由于胶片的宽容度低造成的检测覆盖率低,存在漏检质量隐患的问题,采用射线计算机成像技术（CR）对该类变截面厚度差在5～20 mm内的钢构件进行检测。结果表明,CR检测图像宽容度是胶片照相检测的3倍,检测覆盖率高;以离心轮线状缺陷CR检测为例,且通过CT和理化检测验证证明,CR检测具有与胶片照相检测基本一致的缺陷检测灵敏度、可靠性。     

自适应机翼翼型变形的研究现状及关键技术

自适应机翼具有巨大的应用潜力,是未来飞机设计的必然趋势,已经得到了广泛的关注。分别从自适应变弯度前缘、自适应变弯度后缘以及变厚度机翼三个方面阐述了其变形原理,并对使用的蒙皮、驱动方式、研究方法等进行了归纳总结,指出了未来的发展趋势,提出了自适应机翼亟需解决的关键技术,包括兼具大变形和高承载功能的柔性蒙皮的设计、自适应驱动系统设计、协同控制系统的设计、分布式传感器网络,可为自适应机翼结构的设计与实现途径提供一定的技术参考。     

Framework and development of data-driven physics based model with application in dimensional accuracy prediction in pocket milling

In the manufacturing of thin wall components for aerospace industry, apart from the side wall contour error, the Remaining Bottom Thickness Error (RBTE) for the thin-wall pocket component (e.g. rocket shell) is of the same importance but overlooked in current research. If the RBTE reduces by 30%, the weight reduction of the entire component will reach up to tens of kilograms while improving the dynamic balance performance of the large component. Current RBTE control requires the off-process measurement of limited discrete points on the component bottom to provide the reference value for compensation. This leads to incompleteness in the remaining bottom thickness control and redundant measurement in manufacturing. In this paper, the framework of data-driven physics based model is proposed and developed for the real-time prediction of critical quality for large components, which enables accurate prediction and compensation of RBTE value for the thin wall components. The physics based model considers the primary root cause, in terms of tool deflection and clamping stiffness induced Axial Material Removal Thickness (AMRT) variation, for the RBTE formation. And to incorporate the dynamic and inherent coupling of the complicated manufacturing system, the multi-feature fusion and machine learning algorithm, i.e. kernel Principal Component Analysis (kPCA) and kernel Support Vector Regression (kSVR), are incorporated with the physics based model. Therefore, the proposed data-driven physics based model combines both process mechanism and the system disturbance to achieve better prediction accuracy. The final verification experiment is implemented to validate the effectiveness of the proposed method for dimensional accuracy prediction in pocket milling, and the prediction accuracy of AMRT achieves 0.014 mm and 0.019 mm for straight and corner milling, respectively.     

Impact of bending dies with different friction forms on forming force and quality of tubes manufactured by free bending technology

In the 3D free bending forming system, the bending die can be designed either in a sliding type or rolling friction type. Bending die-based sliding friction type is often called normal bending dies; however, the bending dies-based rolling friction type includes bending die-based roller type and ball type in structure. In the current study, the impact of three bending dies on the forming force, and the bent tube quality was investigated. The obtained results showed that the tangential stresses and strains of the tubes formed by the bending die-based roller type were the smallest among the three bending dies. Besides, the spherical bearing force P_U was reduced drastically after using the roller type and ball type compared to the sliding friction type. Moreover, the uniformity of the wall thickness distribution of the tubes formed by the roller type and ball type was better than those obtained from the sliding friction type. In addition, the cross-section distortion rate was reduced by 2.8% using the roller type, and 1.8% using ball-type compared to the sliding friction type.     

CVI沉积炭纤维束的组织结构

采用CVI工艺在常压下对单束炭纤维进行热解沉积,天然气为前驱体,N2为载气,沉积温度为1 020～1 100℃,沿纤维束轴向分布。对不同位置炭纤维束外和束内热解炭组织结构分别进行PLM表征。研究发现,束外热解炭在距离热电偶(0位置)上方40～80 mm处沉积厚度达到最大,在0～80 mm内组织结构良好,主体为高织构;束内沉积热解炭的厚度较均匀,组织结构的变化与束外一致。对气体裂解过程中的反应气体组分进行模拟并与实验对比,发现生成高织构时,热解反应中间产物中的C2H2/C6H6范围为15～35。     

盘轴转子系统临界转速计算的改进传递矩阵法

在用传递矩阵法分析转子系统的临界转速时,传统的方法是忽略轮盘的厚度,将轮盘的传递矩阵作为点矩阵来处理的,这样会导致转子轴的刚度比实际模型的低,进而导致临界转速的计算结果偏低。本文将通过轮盘的传递矩阵作为场矩阵来处理,对计及轮盘厚度的传递矩阵进行了推导。分别使用传统传递矩阵法和本文提出的改进传递矩阵法对2个盘在不同位置的单盘转子模型以及一个多盘转子系统的临界转速进行了计算。对比结果表明,传统传递矩阵法的计算误差很容易就会达到一个不可忽略的水平,改进的传递矩阵法解决了这一问题。     

变厚度弹性件柔性接头的非线性分析

结合试验数据,采用Mooney-Rivlin模型模拟了柔性接头的弹性件材料;根据非线性理论,采用混合插值有限元法对某一摆角状态下的柔性接头进行了大变形非线性弹性分析,并在此基础上初步探讨了厚度不均匀弹性件对层间应力的影响。计算结果表明,弹性层减薄到一定程度时,层间剪切应力沿宽度方向分布变得均匀,应力值仍集中在2 MPa以下;层间法向应力分布变化较小,呈二次曲线分布,最大值有所降低;其中,接近后法兰的弹性件厚度不均时,对各项应力最大值影响较大。     

武汉地区电离层TEC和NmF2及板厚的季节变化

通过利用武汉电离层观测站(114.4°E,30.6°N)1980-1990年对E8T-Ⅱ卫星信标的法拉第旋转测量的TEC(电子浓度总含量)数据,以及由测高仪测量的1980-1990年间的f0F2(F2层临界频率)数据,研究了武汉地区TEC,NmF2(最大电子浓度)和板厚的季节变化,同时比较了IRI和武汉单站模式在预测NmF2季节性方面的有效性.武汉单站模式在预测NmF2季节性变化方面优于IRI模式.      

射线检测厚度宽容度的分析与测定

厚度宽容度是变截面工件射线检测的重要参数。本文分析了典型工件的厚度差,以及不同灵敏度级别的厚度宽容度。应用胶片特性曲线、曝光曲线,从实验角度测量了厚度宽容度,并对结果作了分析和讨论。     

切向结构永磁同步电机中磁钢厚度对性能的影响

提出了切向结构永磁同步电机中磁钢厚度的约束条件;依据电机学理论并结合有限元计算方法,研究了气隙长度恒定时不同极对数下气隙磁密、每极磁通与磁钢厚度的关系,探讨了磁钢厚度对电机的过载能力、铁耗等性能的影响;在气隙长度发生变化时,为了保证漏磁大小不变,讨论了气隙与非导磁衬套厚度、磁钢厚度的关系。并指出:(1)气隙恒定时,随着磁钢厚度的增加,不同极对数时磁钢体积增大所提供的磁势对每极磁通的影响有所不同;铁耗和过载能力随磁钢厚度的增加而增大。(2)气隙增大时,为了保证气隙磁密和漏磁不变,必须增加非导磁衬套的厚度。(3)极对数增加时,减小磁钢厚度能提高电机的性价比。