光强和方位角误差对光弹性五步彩色相移法的影响

为了了解相移法中的各种参数所产生的误差对最终结果的影响 ,对一些主要参数做深入的误差分析是十分必要的。针对五步彩色相移法所用的白光入射平面偏振场的特点 ,只考虑光强、起偏镜和分析镜方位角所引起的误差影响就可以了。提出一个分析和评估这些误差源对五步彩色相移法确定等倾角参数所产生影响的方法 ,这对合理设计实验装置和执行正确的实验条件将起到积极的作用     

数字光弹性中五步彩色相移法及其应用

把相移法与光学彩色信息图像处理技术相结合,提出全场数字化确定主方向角的光弹性五步彩色相移法。其主要优点是采用最简单的白光平面偏振仪光学系统,由数码照相机采集五幅等色线与等倾线相互耦合的彩色条纹图,经计算机进行处理后,就可以得到[O～π／2]范围内单纯连续的等倾角相图;为了减少测量误差,在相移法中引入背景光强参与运算。对实验中存在的三种主要误差因素进行了定量分析,给出了具体的误差控制指标。用对径压缩圆盘问题的理论仿真模拟结果、基本实验和复杂平面及空间实际问题进行检验和对比,表明本方法是正确可行的。     

平面偏振光场光弹性实时相移法

光弹性法可广泛用于二维、三维应力或应变场的研究。根据偏振相移法的原理,提出一种新的积分相移法,并设计了用于全场等倾线和等差线实时分析的光弹性仪。在正交偏振光场下,按一定速度同步旋转起偏镜和分析镜,CCD摄像机可连续获取四幅相移光弹图像,由CCD像敏单元积分获得其光强值,通过所提出的相移法运算,可以迅速地得出全场等倾角和等差线的相位值。该方法和装置不仅可用于光学原件及玻璃制品的高速检测,而且也可用于随时间缓慢变化的光弹性分析中。     

平面偏振光场光弹性实时相移法的误差分析

研究了在获取图像的过程中转角变化、偏振片方位角误差及试件所受的载荷变化对平面偏振光场光弹性实时相移法的影响。通过理论分析与数值模拟,讨论了在不同条件下等倾角相位误差。等倾角相位误差随着每场转角变化的增加而增大;偏振镜方位角误差使等倾角相位产生平移;试件所受的载荷变化会引起所采集的光弹性图像误差,对等倾角的计算结果会产生较大的影响。研究结果对合理设计光弹性实验装置、正确评价和执行实验技术具有积极的指导作用。     

光的干涉与衍射

将相移法与光学彩色信息图像处理技术相结合,提出全场数字化确定主方向角的光弹性五步彩色相移法。其主要优点是采用最简单的白光平面偏振仪光学系统,由数码照相机采集五幅等色线与等倾线相互辆合的彩色条纹图,经计算机进行处理后,就可以得到【o~二/2〕范围内单纯连续的等倾角相图;为了减少测量误差.在相移法中引人背景光强参与     

数字光弹性相移法中全场等倾角和等差线相位

以径向受压圆盘为例,从弹性力学的角度详细分析了模型全场等倾角相位的情况,分析第一主应力的方向,在六步相移法的基础上提炼出圆盘全场等倾角相位和等差线的真实相位。采用有限元软件MARC与形函数拟合相结合的方法模拟径向受压圆环六步相移图和等差线相位图,可以推广到没有解析解或者解析解复杂的应力模型的光弹性实验模拟。通过径向受压圆盘实验验证了方法的可行性,实现光弹法中自动提取全场等差线的信息。     

数字光弹性中六步混合相移技术

数字光弹性应力分析中常用相移法确定等倾线和等差线,最广泛应用的是十步相移法,针对单色光入射引起的等倾线耦合等差线的问题,增加采集白光入射4幅图像,使用不同光弹图像集分别计算等倾线和等差线,测量精度更高但操作复杂、效率较低。本文提出一种优化的六步混合相移方法,将十步相移法的6+4测量方法缩减为3+3的六步测量方法。用仿真模拟实验对本文方法进行误差分析,验证了其具有良好的抗噪性能和相移误差抗干扰能力。真实实验结果表明：与传统六步相移法相比,本文方法有效解决了等倾线耦合等差线以及波片失配误差的问题;与十步相移法相比,本文方法与其等倾线平均偏差约为0.01 rad,等差线平均偏差约为0.09 rad,在提高40%采集效率的同时保证了测量精度。     

相移法获取三维光弹特征相位差的方法

对于三维光弹模型,次主应力及其方向沿入射光连续变化,根据光学等效的原理,可以将三维光弹模型等效为一个包含线性相位延迟器和旋光器的光学模型。在集成光弹法中,对于每一个测量点,研究者必需通过实验获取三个特征参数。提出了一种用于确定集成光弹中全场特征相位差的五步相移法,给出了偏振光场中元器件的设置方法,并运用Jones算子推导出相移法得出的光强公式。最后使用斜射法对径向受压圆盘进行实验,验证了方法的有效性。     

数字三色条纹相移形貌投影栅线法

基于投影栅线的三色条纹相移算法与投影栅线法相结合,提出一种数字三色条纹相移形貌投影栅线法.此法是对时间相移法的改进,只需一幅三色条纹图,就可利用简单的三光强相移算法完成物体表面的形貌重建;不需要相移装置而误差较小,成本较低,简易实用,将有利于推广到动态实时分析.实验证明,此法是正确可行的.     

三维形貌测量的扫描相移法研究

物体三维形貌测量中常用的光切法的主要优点是易于实现扫描测量大型物体表面,缺点是光刀中心位置难以精确确定;相移法的主要优点是可以用较宽的光栅提高测量的灵敏度与准确度,具有测量速度快和较好的抗静态噪声的能力,缺点是当待测范围较大时,采集图像的像差较大,不利于大型物面的测量.将这两种方法有机地结合起来,取长补短,提出了一种扫描相移法.实验结果表明,这个方法不但适用于长形大物面的形貌检测,而且又大大地减少了图像采集系统畸变误差的影响,从而提高了检测准确度.     

Whole-field determination of isoclinic parameter by five-step color phase shifting and its error analysis

Combining color imaging with phase shifting, a technique named five-step color phase shifting is presented to determine the whole-field isoclinic parameter. Relevant theory is derived and explicit conditions for directly determining the isoclinic parameter in the range of [0,π/2] are given. The unloaded light intensity of the model is systematically studied. A color camera recorded five isoclinic images coupled with isochromatics from a plane polariscope with five different settings, respectively. Experiments have been carried out with a circular disk under diametral compression and errors have been analyzed and estimated. This technique utilizes white light, which avoids undefined isoclinics near the locations where the isochromatics exist and will have active effect on experimental stress analysis and structural strength design.     

基于移相法的光学玻璃应力等倾角全场数字化测量

提出了一种用四步移相法实现光学玻璃应力等倾角全场数字化测量的方法。用数码相机拍摄椭圆偏振光场转过不同角度时的四幅出射光强图像,根据移相法的原理计算出在0°～90°范围内的等倾角β。通过对具有典型应力分布的光学玻璃进行实验验证表明,计算结果与实际情况相符。     

Phase shifting photoelasticity in white light

The availability of image acquisition systems has led to the development of digital photoelasticity both in monochromatic and white light. In particular white light has been used mainly with the following methods: Spectral Content Analysis, RGB photoelasticity and phase shifting photoelasticity. Phase shifting photoelasticity in the colour domain has been used effectively for the determination of the isoclinic parameter in order to reduce the influence of the isochromatic fringes. The method has been also proposed for the determination of the isochromatic fringe order. This paper concerns the general characteristics of phase shifting photoelasticity in the colour domain. Special attention is drawn towards the influence of spectral content of the light source, the spectral response of the colour camera filters, the dispersion of the birefringence and the error of quarter wave plates.     

Instantaneous phase shifting arrangement for microsurface profiling of flat surfaces

Phase shifting interferometry is a well-established technique for non-contact surface profile measurement. Though phase shifting technique has many advantages, it is marred by a few inaccuracies due to the vibration and mechanical movement of the phase shifter itself. Significant amount of work is reported to theoretically compensate these error sources. But for a few works, prominent achievements have not been reported in eliminating these error sources in phase shifting interferometry. In this paper, a novel optical layout, in combination with instantaneous phase shifting interferometry is described. Experiments were carried out with this setup on a super mirror with a λ/20 surface roughness, to demonstrate the validity of the principle.     

Error analysis of phase shifting by varying the incident angle of parallel beams in shadow Moiré

A phase shifting technique by varying the incidence angle of parallel beams in a shadow Moiré has been demonstrated in the present investigation. Error of phase shifting with this technique is evaluated, since it is not a stringent technique in theory. Furthermore measures in order to increase its accuracy have been suggested. Feasibility of the proposed phase shifting technique has been verified with experiments. It was found that the difference between the recommended and conventional phase shifting techniques could be significantly optimized to be less than 5%.     

SEM扫描云纹法的相移技术研究

提出一种扫描电镜(SEM)扫描云纹法的相移新技术,通过SEM系统控制电镜电子束扫描线移动,对获取的云纹图像实现0-2π范围内的四步相移,从而获得了更高的位移测量灵敏度。同时对SEM扫描云纹法的测量原理以及相移实验技术的原理进行了详细的阐述。并将该技术应用到电子封装试件栅的相移分析中。实验结果证明了该方法的可行性,该方法为微米云纹法的条纹处理提供了一种新途径。