摘要
An improved in-plane insensitive double-aperture digital speckle shearing interferometric technique is proposed to measure the first derivative of out-of-plane displacement (slope). The temporal phase-shifting method is used for the quantitative analysis of fringes. The designed system employs a double-aperture arrange- ment placed in front of the imaging lens. A glass wedge covers one of the two apertures to introduce a laterally shear. The experimental specimen is a circular aluminum plate, clamped along its edge and subjected to both out- of-plane deflection and in-plane rotation. Experimental results show that the fringes obtained from the proposed optical configuration represent pure slope contour distributions, and that the contributions from the in-plane dis- placement components are completely eliminated. Theoretical and experimental results are in good agreement.
为了测量离面位移的一阶导数即斜率分布信息,提出了一种改进的对面内分量不敏感的双孔径数字散斑剪切干涉技术,利用时间相移技术进行条纹的定量分析。双孔径装置固定在成像系统前,玻璃楔片放置在任意一个孔径前以便引起横向剪切。通过实验测量一个周边固支,同时受离面变形和面内转动载荷的圆板的斜率分布。实验结果表明,利用该光学系统得到的条纹图仅表示斜率条纹轮廓,而条纹图中由面内位移以及相应的应变分量的影响都被彻底去除。实验结果和理论分析结果吻合。
基金
Supported by the Fundamental Research Funds for the Central Universities
the Funding for Outstanding Doctoral Dissertation in Nanjing University of Aeronautics and Astronautics(BCXJ11-01)~~
作者简介
E-mail :kfwang@nuaa. edu. cn.
