可见／近红外漫反射光谱无损检测南丰蜜桔维生素C的研究

应用可见/近红外漫反射光谱对南丰蜜桔维生素C含量进行了无损检测研究.在谱区350～1 800nm,应用主成分分析和偏最小二乘法对经过预处理光谱进行数学建模,主成分数和光谱区间选择分别由完全交互验证和回归系数法确定.定标模型对10个未知样品的预测结果是:预测相关系数为0.813,预测均方差为2.112 mg(100 g)-1,预测偏差为-0.810 mg(100 g)-1.文章表明利用可见/近红外漫反射光谱技术无损检测南丰蜜桔维生素C具有可行性.     

激光激发水中产生超声波的实验研究

采用压电陶瓷水听器研究了Nd：YAG脉冲激光激发水中产生瞬态超声波的特性,给出了声压信号随距离的变化关系。研究结果表明：用激光产生水下声波是完全可行的。当观测点与光击穿区的距离r远大于柱体长度时,垂直于光传播方向的激光瞬态超声波幅值与r成反比;当观测点与光击穿区的距离r很小时,垂直于光传播方向的声压幅值与产成反比。此外,当激光入射角度发生变化,超声脉冲的幅值也随之发生变化,其幅值在激光束垂直入射的时候最大。     

超声在废水处理中的应用

超声波处理废水是一项新兴的废水处理技术,具有操作简单方便、降解速度快等优点,在处理毒性高、难降解的有机废水应用表现出广阔的前景。     

基于高光谱技术的土壤水分无损检测

利用高光谱成像仪(光谱范围400～1 000 nm)对土壤含水率进行了无损检测。比较了208个土样不同天数下土壤含水率与光谱变化、不同质量含水量光谱的差异;对比分析了不同光谱预处理方法、不同方法提取特征波长、采用多元线性回归(multiple linear regression,MLR)、主成分回归(principal component regression,PCR)与偏最小二乘回归(partial least squares regression,PLSR)建模,优选出最佳模型。结果表明：光谱曲线的反射率随着土壤含水率的增加而减小。当超过田间持水率时,光谱曲线的反射率会随着土壤含水率的增加而增大。对比分析了不同预处理方法,近红外波段优选出单位向量归一化预处理方法。采用无信息变量消除法(UVE)、竞争自适应加权采样(CARS)、β系数法、连续投影算法(SPA)方法提取特征波长为49,30,5和7。为了减少数据冗余,对UVE与CARS提取的特征波长进一步采用SPA方法进行特征提取,UVE+SPA,CARS+SPA提取特征波长数分别为5和8个。在此基础上,利用MLR,PCR和PLSR方法对400～1 000 nm范围的特征波长建立模型,对比分析不同建模效果,优选出β系数提取的特征波长的MLR模型。最优的特征波长为411,440,622,713和790 nm,最优模型的预测相关系数R_p=0.979,预测均方根误差RMSEP为0.763。因此,今后可采用不同波段对土壤含水率进行定量分析。     

基于超声波换能器的钢筋机械损伤与锈蚀损伤检测及其对比研究

超声导波检测技术有检测耗时少、覆盖范围大等优点.为检测钢筋混凝土结构中钢筋损伤,采用超声波换能器研究不同深度和位置的机械损伤对超声导波传播的影响,建立损伤程度与导波特征关系.通过反射系数C定量分析损伤程度,并结合损伤反射回波判断损伤位置.在钢筋点锈蚀以及均匀锈蚀损伤检测中,锈蚀程度达到最大时,L波实际波速分别为4 738.1 m·s^-1和5 069.7 m·s^-1,以此区分锈蚀损伤与机械损伤,最后基于小波变换的时频分析判断损伤状况.研究成果可为钢筋损伤检测研究提供参考.     

The simulation of ultrasonic beams with a Gaussian beam equivalent point source model

Point Sources and Gaussian beams are used frequently as fundamental building blocks for developing ultrasonic beam models. Both these models have different weaknesses that limit their effectiveness. Here, we will show that one can develop a Gaussian Beam Equivalent Point Source （GBEPS） model that removes those weaknesses and combines the accuracy and versatility of the point source models with much of the speed and well-behaved nature of Gaussian beam models. We will demonstrate the efficiency and versatility of this new GBEPS model in simulating the beams generated from ultrasonic phased arrays, using as few as one Gaussian beam per element of the array. A single element GBEPS model will be shown to be as accurate as a point source model even when substantial beam focusing or steering is present in the array or where the array beam is transmitted through an interface. At the same time the GBEPS model will be shown to be several orders of magnitude faster than the point source model.     

Novel correction method for X-ray beam energy fluctuation of high energy DR system with a linear detector

A high energy digital radiography (DR) testing system has generated diverse scientific and technological interest in the field of industrial non-destructive testing. However, due to the limitations of manufacturing technology for accelerators, an energy fluctuation of the X-ray beam exists and leads to bright and dark streak artifacts in the DR image. Here we report the utilization of a new software-based method to correct the fluctuation artifacts. The correction method is performed using a high pass filtering operation to extract the high frequency information that reflects the X-ray beam energy fluctuation, and then subtracting it from the original image. Our experimental results show that this method is able to rule out the artifacts effectively and is readily implemented on a practical scanning system.     

Non-contact evaluation of the resonant frequency of a microstructure using ultrasonic wave

This paper presents a novel non-contact method for evaluating the resonant frequency of a microstructure, Firstly, the microstructure under test is excited by ultrasonic waves. This excitation method does not impose any undefined load on the specimen like the electrostatic excitation and also this is the first actual use of ultrasonic wave for exciting a microstructure in the literature. Secondly, the amplitudes of the microstructure are determined by image edge detection using a Mexican hat wavelet transform on the vibrating images of the microstructure. The vibrating images are captured by a CCD camera when the microstructure is vibrated by ultrasonic waves at a series of discrete high frequencies （〉30 kHz）. Upon processing the vibrating images, the amplitudes at various excitation frequencies are obtained and an amplitude-frequency spectrum is obtained from which the resonant frequency is subsequently evaluated. A micro silicon structure consisting of a perforated plate （192 × 192 μm） and two cantilever beams （76 × 43 μm） which is about 4 μm thickness is tested. Since laser interferometry is not required, thermal effects on a test object can be avoided. Hence, the setup is relatively simple. Results show that the proposed method is a simple and effective approach for evaluating the dynamic characteristics of microstructures.     

SQUID结合涡旋电流法用于铍材残余应力检测的可行性

涡旋电流法是材料无损检测常用方法之一，近年国际上多个研究小组对用于金属材料内残余应力检测开展了研究，涡旋电流法被认为是无损检测确定材料内残余应力的潜在方案。文中从实验和电磁场数值模拟两方面对此问题开展研究。     

血液中声参量测量值与混合定则的比较

本文测量了猪、羊、牛血液的声速和非线性声参量以及血液中水、蛋白质、脂肪的含量.把结果与Apfel和Sehgal声参量混合定则作了比较.指出两个混合定则能够反映血液声参量与其水、蛋白质、脂肪含量的关系,但在精确定量上与实验尚有距离.