用高速纹影摄影技术观测自由面微物质的喷射

本文介绍了适于爆轰实验研究的透射式高速纹影仪。该设备具有较高的测试灵敏度。应用它观测了铅和钢样品自由面的微物质喷射现象,取得了好的结果。     

不同介质下高速铣削钛合金时切屑的变形研究

开展了不同介质下钛合金切屑变形的高速铣削试验研究,分析比较了不同介质、不同铣削速度对切屑宏观和微观形貌的影响及其原因,得出了干铣削、空气油雾和氮气油雾介质下切屑变形的各自特点以及切屑变形随速度而变化的规律。     

高速飞行器热结构工作时变模态参数辨识

高速飞行器由于其很高的飞行速度而无可避免地受到气动加热作用的影响,进而引起结构特性的时变。采用理论或有限元方法(FEM)进行数值分析,难以获取反映结构在飞行(工作)状态下的真实模态参数。通过辨识获取高速飞行器热环境下的时变结构模态参数是一项十分具有挑战性的任务。针对此问题,引入参数化时频域的最大似然方法,对气动加热作用下的高速飞行器升力面结构的时变模态参数进行了辨识。通过模拟真实飞行状态的数值算例研究,说明参数化时频域的最大似然方法能够很好地辨识出低信噪比(SNR)情况下的模态频率和模态振型,验证了参数化时频域最大似然方法适用于具有显著时变特征的高速飞行器热结构的时变结构模态参数辨识,可为将来相关的工程研究和应用提供良好的理论支持。     

复合铣整体叶盘通道加工工艺规划分析

首先对开式整体叶盘通道几何特征进行分析,在宽度和深度上对通道加工空间进行计算,从轴向和径向进行切削加工性分析;通过偏置面求解及其延伸面求解,进而确定可加工区域;在对比分析各种铣削方法基础上,优选复合铣削数控刀具,明确通道复合铣加工方法以及流程,为后续开式整体叶盘通道加工工艺优化打下基础。     

多核DSP实时图像处理平台设计与实现

为了实现对高帧率、高分辨率图像的智能化实时处理,要求图像处理系统具有较高的数据传输带宽和数据处理能力。采用多核DSP作为核心处理器来解决目前图像采集平台面临的数据传输瓶颈和处理瓶颈,利用FPGA硬件化并行处理的特性完成多路视频的预处理,设计了高速串口RapidIo通信接口实现视频的实时传输,对DSP的多核调度特性进行分析,保证处理的实时性,并采用相关算法验证系统的性能。     

基于宏程序的外球面粗精加工

目前,小内存的数控机床仍然是我国机床的主流,使加工程序变得简洁,对实际加工有着很重要的意义.宏程序的应用可以大大简化编程,本文通过实例介绍了数控铣削加工外球面的宏程序.     

Stability analysis of robotic longitudinal-torsional composite ultrasonic milling

Currently, industrial robots are considered as an alternative towards traditional machine tools. Especially for the large-scale parts milling, robotic flexibility and low cost make it possess the irreplaceability. However, the milling chatter caused by its weak rigidity hampers robotic application and promotion severely in aviation industry. Rotary ultrasonic milling (RUM) technology with one-dimensional axial vibration has been proven and approved on avoiding robotic chatter. Based on this, the research of project team demonstrates that longitudinal-torsional composite ultrasonic milling (CUM-LT) involving separation characteristic has a greater advantage than RUM in terms of chatter suppression. Thereby, the CUM-LT as a new means is applied to avoid processing vibration of robotic milling system. And its influence mechanism on stability improvement of weak stiffness processing system is clarified. Meanwhile, the approaches to strengthen separation effect are provided innovatively. Moreover, a new analysis method of robotic CUM-LT (RCUM-LT) stability is proposed on the basis of ultrasonic function angles. The simulation and experimental results indicate that compared with robotic RUM (RRUM), stability regions of separated RCUM-LT (SRCUM-LT) and unseparated RCUM-LT (URCUM-LT) are improved by 124.42% and 39.20%, respectively. The addition of torsional ultrasonic energy has a wonderful effect on the milling chatter suppression of low stiffness robots.     

刀具材料对CFRP齿槽加工质量的影响

采用硬质合金(YG6X)和PCD刀具分别对CFRP进行齿槽加工试验,探究刀具材料对齿槽加工质量的影响。结果表明:随着每齿进给量f_z的增大,撕裂因子F_(sl)呈明显的增大趋势;采用PCD铣刀铣制齿槽,其加工质量较为稳定,加工质量较理想。     

A multi-order method for predicting stability of a multi-delay milling system considering helix angle and run-out effects

In this paper, a multi-delay milling system considering helix angle and run-out effects is firstly established. An exponential cutting force model is used to model the interaction between a work-piece and a cutting tool, and a new approach is presented for accurately calibrating exponential cutting force coefficients and cutter run-out parameters. Furthermore, based on an implicit multi-step Adams formula and an improved precise time-integration algorithm, a novel stability prediction method is proposed to predict the stability of the system. The involved time delay term and periodic coefficient term are integrated as a comprehensive state term in the integral response which is approximated by the Adams formula. Then, a Floquet transition matrix with an arbitrary-order form is constructed by using a series of matrix multiplication, and the stability of the system is determined by the Floquet theory. Compared to classical semi-discretization methods and full-discretization methods, the developed method shows a good performance in convergence, efficiency, accuracy, and multi-order complexity. A series of cutting tests is further carried out to validate the practicability and effectiveness of the proposed method. The results show that the calibration process needs a time of less than 5 min, and the stability prediction method is effective.     

融合机床精度与工艺参数的铣削误差预测模型

为弥补现有五轴联动数控铣床加工飞机结构件的加工精度评估系统的不足,提出利用机床精度检测数据和零件特征及其工艺参数来构建评估指标体系,基于BP神经网络建立了飞机结构件加工误差预测模型。通过完成训练的网络权值分布,计算出各输入指标对最后评估结果的影响,并通过实例分析检验了模型的可靠性。结果表明,经BP神经网络模型训练得到的结果和样本零件的三坐标测量机测量数据基本吻合,选取的评价指标具有有效性。该评估模型能够有效地融合机床精度检测数据和零件特征及其加工工艺参数,对飞机结构件的铣削加工误差进行预测。