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钛合金关节轴承是航空发动机的重要部件之一,但由于其润滑条件较差,极易产生磨损从而导致失效事故。采用超声滚压工艺对钛合金试件表面进行强化试验,以有效增强试件表面耐磨性能和抗疲劳特性,并着重研究静压力、滚压次数和主轴转速等超声滚压强化工艺参数对钛合金表面残余压应力与剪切应力的影响规律。试验结果与理论分析结果表明,残余压应力随着静压力、滚压次数和主轴转速的提高而增大,剪切应力随着静压力、滚压次数和主轴转速的提高而总体减小;滚压后试件表面可获得-2 000~-500 MPa的残余压应力和-600~-300 MPa的剪切应力。超声滚压技术可以有效提高钛合金材料表面的残余压应力,并有效降低表面的剪切应力。 相似文献
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残余应力是消除外力或不均匀的温度场等作用后仍留在物体内的自相平衡的内应力,对构件的力学性能有显著影响,会引起零件发生翘曲或扭曲变形,甚至开裂,定量测量残余应力数值对改变构件疲劳寿命,预防构件发生脆性破坏具有重要意义。国内外对残余应力测量进行了深入的研究,提出了多种测试方法。详细介绍了有损及无损残余应力测量技术的测量原理及国内外目前研究现状,分析总结了影响测试精度的主要因素及改进方法;调研了目前市场上较先进的仪器设备及其供应厂家;针对盲孔法孔周围塑形变形及钻孔偏心、压痕法塑性区域半径、X射线衍射法试样内部显微组织结构、中子法零点漂移、超声波法测量尺寸带来的误差的重要改进技术;并对残余应力测量技术发展方向进行了展望。 相似文献
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为实现医用聚焦超声场声学性能快速、准确检测,提出基于近场互谱测量技术的声参数检测方法。首先介绍了近场互谱法测量原理,实现聚焦声场的声压、声强、声功率检测;然后在COMSOL下建立聚焦换能器辐射声场有限元模型,分析其声场聚焦特性和传播形态,给出检测方案;最后,搭建了实验平台,验证了该方法的有效性和正确性。结果表明,通过聚焦声场的近场声源面预测焦域的声压分布,估算声功率,实现了对聚焦超声场的多个声性能参数检测,且具有较高的精度,有望应用于医用换能器的现场检测,有效监控医用聚焦超声设备的声性能,保证设备安全使用且满足治疗效果。 相似文献
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焊接残余应力的小孔法测试 总被引:1,自引:0,他引:1
应用小孔释放法对系列手弧焊接接头的焊接残余应力分布进行测试,讨论了焊接残余应力的分布规律及其相关影响因素,对加载法消除焊接残余应力的效果进行了初步的验证。结果表明,焊接接头的应力不均匀性和不确定性是影响钢制压力容器安全性的关键,采用加载法可以有效地改善这种非均匀应力分布状况。 相似文献
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Stress and residual stress distributions in bending are important in calculating springback and loading capacity of a sheet-metal bending part. Great differences have been found in springback prediction with the same input (benchmark problems) among different researchers. In order to find out the root cause of these differences, stress and residual stress calculation methods in plane strain bending are briefly reviewed or developed. The influence of deformation theory and incremental theory, repeating bending, unbending and re-bending, cyclic material models and springback calculation methods on the stress or residual stress distributions are examined and shown to be large. This emphasizes the importance of careful selection of these variables in a simulation model in addition to other general input variables, such as material properties, tool geometry and friction condition. This fact also helps to explain the great differences among different research results, and presents a challenge to both the programmers and the users of finite element packages. 相似文献
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脉冲漏磁检测的三维场特征分析及缺陷分类识别 总被引:1,自引:0,他引:1
漏磁检测方法广泛应用于石油、运输及化工等行业中金属的缺陷检测.介绍了漏磁检测原理,采用有限元法建立了三维缺陷脉冲漏磁检测模型,分析了缺陷脉冲漏磁场B_x、B_y和B_z分量的特点.结果表明,与传统漏磁检测系统提取缺陷漏磁场水平分量B_x和法向分量B_z进行缺陷识别相比较,三维缺陷脉冲漏磁场分量的提取将提供更多有关缺陷尺寸、位置等信息,尤其是当外加磁场方向与缺陷主平面近似平行时.最后给出了实验验证,实验结果与仿真分析有较好的一致性,这说明有限元仿真分析对实际脉冲漏磁检测系统的设计有重要的指导意义. 相似文献
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Raman spectroscopy has proved to be a useful nondestructive technique for measuring residual stresses in semicondutors. The Raman microprobe is used to investigate the effects of machine parameters on residual stresses in single point diamond turned germanium (Ge). A profiling technique that provides a method of obtaining the residual stress information as a function of depth with depth resolutions of 10.0 nm is discussed. This method is used to analyze the asymmetrically broadened and shifted spectral features in the machined samples. Residual stresses are sampled across ductile feed cuts in (100) Ge wafers, which were single point diamond turned using various feed rates (12.5, 25 nm/rev), rake angles (0°, −10°, −30°), and clearance angles (6°, 16°). In general a region of plastically deformed material that shows slight compressive stresses exist near the surface of the diamond turned sample. The compressive surface stress increases to a maximum at a depth of ≈ 50 nm beneath the surface at which point the stress rapidly changes sign. The rapid sign change is indicative of the transition from plastic to elastic deformation. Deeper probe regions exhibit increasing tensile stresses, which reach a maximum and then relax to zero at greater depths in the sample. A related study of the stress field occurring around Vicker's hardness indents provides a link between theoretical and experimental stress profiles and demonstrates the accuracy of the micro-Raman profiling technique. 相似文献