Effect of Heat Treatment on Microstructure and Mechanical Properties of Multiscale SiC_p Hybrid Reinforced 6061 Aluminum Matrix Composites

The performance of solid solution aging treatment on aluminum matrix composites prepared by powder metallurgy and reinforced with 6061 aluminum alloy powder as matrix;meanwhile, nano silicon carbide particles(nm Si Cp), submicron silicon carbide particles(1 μm Si Cp) and Ti particles were studied. The Al/Si Cp composite powder was prepared by high-energy ball milling, and then cold-pressed, sintered, hotextruded, and then heat-treated with different solution temperatures and aging times for the extruded composites. Optical microscopy, scanning electron microscopy, energy dispersive X-ray spectroscopy(EDS), X-ray diffractometer(XRD) and extrusion testing were used to analyze and test the microstructure and mechanical properties of aluminum matrix composites. The results show that after the multi-stage solid solution at 530 ℃×2 h+535 ℃×2 h+540 ℃×2 h, the particles are mainly equiaxed grains and uniformly distributed. There is no reinforcement agglomeration, and the surface is dense and the insoluble phase is basically dissolved. In the matrix, the strengthening effect is good, and the hardness and compressive strength are 179.43 HV and 680.42 MPa, respectively. Under this solution process, when the aluminum matrix composites are aged at 170 ℃ for 10 h, the hardness and compressive strength can reach their peaks and increase to 195.82 HV and 721.48 MPa, respectively.

Research on Image Quality Enhancement Algorithm Using Hessian Matrix

The Hessian matrix has a wide range of applications in image processing,such as edge detection,feature point detection,etc.This paper proposes an image enhancement algorithm based on the Hessian matrix.First,the Hessian matrix is obtained by convolving the derivative of the Gaussian function.Then use the Hessian matrix to enhance the linear structure in the image.Experimental results show that the method proposed in this paper has strong robustness and accuracy.

Image Enhancement Using Adaptive Fractional Order Filter

Image enhancement is an important preprocessing task as the contrast is low in most of the medical images,Therefore,enhancement becomes the mandatory process before actual image processing should start.This research article proposes an enhancement of the model-based differential operator for the images in general and Echocardiographic images,the proposed operators are based on Grunwald-Letnikov(G-L),Riemann-Liouville(R-L)and Caputo(Li&Xie),which are the definitions of fractional order calculus.In this fractional-order,differentiation is well focused on the enhancement of echocardiographic images.This provoked for developing a non-linear filter mask for image enhancement.The designed filter is simple and effective in terms of improving the contrast of the input low contrast images and preserving the textural features,particularly in smooth areas.The novelty of the proposed method involves a procedure of partitioning the image into homogenous regions,details,and edges.Thereafter,a fractional differential mask is appropriately chosen adaptively for enhancing the partitioned pixels present in the image.It is also incorporated into the Hessian matrix with is a second-order derivative for every pixel and the parameters such as average gradient and entropy are used for qualitative analysis.The wide range of existing state-of-the-art techniques such as fixed order fractional differential filter for enhancement,histogram equalization,integer-order differential methods have been used.The proposed algorithm resulted in the enhancement of the input images with an increased value of average gradient as well as entropy in comparison to the previous methods.The values obtained are very close(almost equal to 99.9%)to the original values of the average gradient and entropy of the images.The results of the simulation validate the effectiveness of the proposed algorithm.

有机酸对赤霞珠干红葡萄酒的提酯增香效应研究

目的探究有机酸对葡萄酒发酵香气物质的组成与含量及感官品质的影响。方法以赤霞珠酿酒葡萄为原料进行酿造试验,在酒精发酵前分别进行酒石酸、苹果酸、柠檬酸、乳酸4种不同有机酸添加处理,酒精发酵结束后采用顶空固相微萃取结合气相色谱-质谱法(headspace solid-phase microextraction gas chromatography-mass spectrometry,HS-SPME-GC-MS)对发酵香气物质进行定性、定量分析,香气特征通过专业品评小组进行量化评价。结果酒样共检测出18种酯类物质,其中有6种成分的气味活性值(odor activity value,OAV)大于1.0;有机酸处理可以增加赤霞珠干红葡萄酒的酯类物质整体含量;苹果酸处理显著提高了酒样中乙酸酯的含量,乳酸、苹果酸处理显著增加了短链脂肪酸乙酯的含量。进一步对各酯类物质的OAV分析发现,乳酸、苹果酸处理显著增加了多种酯类的OAV。结论在酒精发酵前添加一定浓度的乳酸、苹果酸等有机酸可以有效保留葡萄酒中的酯类香气物质,尤其是乙酸酯和短-中链脂肪酸乙酯等果香酯类物质的含量,有效增强葡萄酒的花香、果香和乳香等香气特征。

TiB增强钛基复合材料的热腐蚀行为

钛基复合材料因其优异的高温力学性能,在航空航天和海洋工程领域具有广泛的应用前景。但在高温含盐环境下服役时,会遭受热腐蚀,限制其应用。在钛基复合材料中添加TiB增强相,可进一步提高其高温强度和使用温度,在此基础上,研究其在高温盐环境下的热腐蚀行为和机制。研究了TiB增强钛基复合材料在973 K条件下热腐蚀30 h的腐蚀行为,测定了材料的热腐蚀质量变化,并采用X射线衍射仪(X-ray diffractometer,XRD)、扫描电子显微镜(scanning electron microscope,SEM)对材料热腐蚀后表面腐蚀产物、形貌以及截面结构进行分析。热腐蚀过程中,材料表面形成细丝状TiO2晶体、微裂纹以及颗粒状腐蚀产物等形貌。结果表明,随着TiB增强相体积分数的增加,材料表面氧化物膜层致密度增加,膜层中缺陷减少,表面腐蚀行为减轻,材料耐热腐蚀性提高。

基于传递矩阵法的超声穿颅系统透射增强分析

超声穿颅技术可以实现颅内成像、脑神经刺激、颅内肿瘤消融等,是脑疾病诊断和治疗的重要工具。然而,超声穿颅时,因换能器、水、颅骨之间的阻抗失配,使得入射声场的大部分能量都被颅骨反射,导致超声穿颅效率低、颅骨表面容易升温灼伤等问题,严重阻碍了超声穿颅技术的临床推广。为提升超声穿颅效率,该文利用传递矩阵法对一维穿颅系统的声场传播进行了详细研究,发现在不考虑颅骨衰减情况下,通过在颅骨外表面增加与颅骨相同声阻抗的材料并调控其厚度,在目标频率超声穿颅效率可达100%,并且改变颅骨与换能器之间水层的厚度对超声穿颅效率没有影响。该工作为超声穿颅系统的透射增强提供了物理基础和解决方案。

基于非负矩阵分解的双曲调频信号目标回波增强

双曲调频信号是主动声呐中常用的多普勒不敏感信号。在实际使用中,由于信道变化和混响影响,目标回波较弱。针对水下航行器主动声呐探测性能下降问题,本文提出基于非负矩阵分解的双曲调频信号目标回波增强方法。该方法对目标回波和干扰信号的基矩阵分别定义,将发射信号的时频图作为目标回波的频率信息矩阵,对目标回波的时间信息矩阵做出约束,迭代处理完成目标回波的增强,获得较高增益的匹配回波检测结果。数值仿真和海上试验结果表明:本文方法与传统匹配滤波方法相比,其峰均比值提高了2 dB以上,提高了回波检测结果。

基于增强内积矩阵的PMI泡沫夹层结构损伤检测

聚甲基丙烯酰亚胺(polymethacrylimide,PMI)泡沫夹层复合材料结构因其独特的力学性能而广泛应用于航空航天领域,如何快速、准确、低成本地检测面板与芯材的脱粘损伤对结构安全使用具有重大意义,然而传统的基于超声波的无损检测技术由于PMI泡沫的吸声特性难以有效地检测到此类结构的脱粘损伤,该文探索基于振动响应测试的方法在PMI泡沫夹层结构损伤检测中的可行性及有效性。以振动时域响应相关性分析建立的结构损伤特征——内积矩阵(inner product matrix,IPM)为基础,通过将不同激励点下计算得到的IPM进行堆叠,提出了增强内积矩阵(enhanced inner product matrix,EIPM)的概念,并以EIPM为卷积神经网络(convolutional neural network,CNN)的输入、PMI泡沫夹层结构的损伤状态为输出,建立了基于EIPM及CNN的结构损伤检测方法。PMI泡沫夹层悬臂梁结构的脱粘损伤检测仿真算例及实验验证结果表明,所提方法在3个及以上测点时的平均识别准确率均在99%以上,且与基于IPM的方法相比,EIPM方法具有更好的收敛速度和稳定性。

多步法原位制备TiB2颗粒增强点焊电极用铜基复合材料及其应用

为提高点焊电极的使用寿命,采用多步法制备TiB2增强的铜基复合材料。采用X射线衍射(XRD)、金相显微技术、扫描电镜(SEM)等表征手段对多步法制备的TiB2增强的铜基复合材料物相、微观形貌进行分析。通过对复合材料力学性能指标测量发现,多步法制备所制备的铜基复合材料具有较好的综合力学性能,将多步法制备的铜基复合材料加工成点焊电极,其寿命测试结果相较于其它对比样最高,寿命达到1500个焊点,是普通铬锆铜点焊电极寿命的2.6倍。

气凝胶复合材料的制备及保温隔热应用进展

气凝胶复合材料由于具有密度低、比表面积大、孔隙率高和导热系数低等结构功能特性,成为最主要的新型保温隔热材料之一。本文简述了气凝胶复合材料的发展历程、制备工艺及方法,从气凝胶复合材料的微观形貌结构、热量传递组成、隔热传热表征等方面对其保温隔热性能及机理进行分析,重点介绍了近年来气凝胶复合材料的保温隔热性能应用在军事航空航天、建筑节能环保、能源存储转化、极端环境材料、电动汽车电池、冷藏(冻)运输以及供热锅炉管道等诸多领域中取得的新进展。同时,对其在各个领域应用中遇到的问题进行了详细讨论并给出建议。此外,文末对气凝胶复合材料在未来的研发、生产及应用中的研究方向进行了展望。

基于改进型MBLLEN网络的内窥镜图像增强算法研究

针对内窥镜场景,亮度与细节增强算法可能会引入色调改变和图像噪声问题,提出改进型MBLLEN(Multi-Branch Low-Light Enhancement Network)网络对内窥镜图像进行增强。首先,采用改进型MBLLEN网络对内窥镜图像亮度进行增强,减少特征提取卷积层,并采用跳连接方式,将增强模块替换成U-Net结构;其次,引入Hessian矩阵特征值,对图像的全局线性结构做细节后处理增强。消融实验结果表明,改进结构在内窥镜场景下相比于原结构更具适应性,并且验证集的增强结果的平均PSNR值为26.829,SSIM值为0.868,DVBV值为131.372,该算法的指标结果与6种主流算法比较,均排名前列。由此可见,本研究算法在保证内窥镜图像质量的基础上,有效地提高了亮度与细节表现。

Biological scaffold as potential platforms for stem cells:Current development and applications in wound healing

Wound repair is a complex challenge for both clinical practitioners and researchers.Conventional approaches for wound repair have several limitations.Stem cell-based therapy has emerged as a novel strategy to address this issue,exhibiting significant potential for enhancing wound healing rates,improving wound quality,and promoting skin regeneration.However,the use of stem cells in skin regeneration presents several challenges.Recently,stem cells and biomaterials have been identified as crucial components of the wound-healing process.Combination therapy involving the development of biocompatible scaffolds,accompanying cells,multiple biological factors,and structures resembling the natural extracellular matrix(ECM)has gained considerable attention.Biological scaffolds encompass a range of biomaterials that serve as platforms for seeding stem cells,providing them with an environment conducive to growth,similar to that of the ECM.These scaffolds facilitate the delivery and application of stem cells for tissue regeneration and wound healing.This article provides a comprehensive review of the current developments and applications of biological scaffolds for stem cells in wound healing,emphasizing their capacity to facilitate stem cell adhesion,proliferation,differentiation,and paracrine functions.Additionally,we identify the pivotal characteristics of the scaffolds that contribute to enhanced cellular activity.

多元颗粒协同增强铝基复合材料研究进展

由于颗粒增强铝基复合材料具有优良的综合性能,其成型及制备技术是现阶段关注的热点,也是未来多元颗粒的重要研究领域之一。本文归纳总结了多元颗粒增强铝基复合材料的制备方法,以及搅拌铸造、粉末触变成形、粉末冶金等成型及制备工艺的优缺点。对增强颗粒和基体合金界面润湿性改善的方法及多元颗粒协同增强对铝基复合材料显微结构、力学性能、磨损性能的影响进行了概述,并对未来多元颗粒增强铝基复合材料进行了展望。

融合感受野增强和注意力机制的交通标志检测算法

针对目标检测算法在交通标志检测中存在的不足,文中提出了一种融合感受野增强模块和注意力机制的交通标志检测算法。该算法在YOLOv5(You Only Look Once version 5)算法的基础上改进,选用感受野模块(Receptive Field Block,RFB)替换原骨干网络中的空间金字塔池化(Spatial Pyramid Pooling,SPP)模块,在特征融合网络中嵌入高效通道注意模块(Efficient Channel Attention Module,ECAM)和卷积块注意模块(Convolutional Block Attention Module,CBAM),选用矩阵非极大值抑制(Matrix Non-Maximum Suppression,Matrix NMS)筛选候选框以提升算法的检测精度和检测速度。实验结果表明,在模型参数量与原网络相比未变化的前提下,该算法的均值平均精度达到了82.31%,与原算法相比提升了8.59%,检测速度达到了51.89 frame·s^(-1),且该算法在各个测试场景中未出现错检漏检现象,证明其泛化能力优于原算法,可以实时检测交通标志。

基于多路特征的改进生成对抗网络水下图像增强算法

针对水下图像颜色偏差、细节模糊以及对比度低等问题,提出多路特征增强生成对抗网络进行水下图像增强算法。首先,为实现对水下图像的色彩平衡,通过构建蓝绿通道与红色通道之间的衰减矩阵,设计红色通道补偿算法。其次,分别搭建生成网络和判别网络。为获得不同层次特征信息,生成网络由不同深度的特征提取网络组成,并搭建特征增强模块,并行增强多路特征,提高特征的质量。同时,为提高网络细节增强能力,搭建多尺度判别网络,对生成图像进行判别。最后,构建多个损失函数优化网络参数,提高网络鲁棒性。实验结果表明,增强图像相较原始图像色彩更加丰富,对比度较高。与现有的算法相比,该方法能够有效恢复水下图像的真实色彩和纹理细节,显著提高水下图像质量。

透射矩阵引导的水下图像融合网络

目前基于深度学习的融合类方法在水下图像增强领域展现出较大优势,但现有方法仍存在融合方式单一、融合特征缺乏优势互补性以及易忽略水下先验等问题.为此,本文提出一种基于透射矩阵引导的水下图像融合网络.该网络由多尺度特征提取模块、自适应对比度增强模块和透射矩阵引导的融合模块组成.多尺度特征提取模块通过提取三颜色空间特征,增强失真图像色彩;另外,该模块设计的多级级联方式可实现在多尺度特征复用的同时避免编码器端失真信息传输到解码器.自适应对比度增强模块通过对比度受限直方图均衡增强水下图像对比度,并基于通道注意力机制实现自适应对比度增强.透射矩阵引导的融合模块通过衡量输入特征和参考图像透射矩阵之间的距离,引导融合特征逼近参考图像.同时,本文设计了一种多级级联损失,实现更准确的特征增强.实验结果表明,所提算法通过合理引入先验,实现融合特征优势互补,可显著增强图像视觉质量,具有较强的泛化能力,在Test-R90数据集上测试取得峰值信噪比为19.37 dB,优于目前主流方法.

Transformer与CNN并行引导的水下图像增强

为克服水下图像对比度低和色偏的问题,提出了基于Transformer与CNN并行引导的水下图像增强算法。利用3D位置嵌入模型为Transformer提供相对位置信息、色偏信息和特征图的全局特征,利用CNN编码器提取图像局部特征,将Transformer提取的全局特征和CNN提取的局部特征通过特征调制矩阵整合在一起,通过CNN解码器提高图像的分辨率,将解码器输出的特征图输入到特征加强网络中,由特征加强网络输出最终结果。采用现有的EUVP配对数据集进行训练,为验证该算法的优越性,选取具有不同程度色偏的水下图像进行定性比较和定量实验,结果显示,该算法增强后的水下图像峰值信噪比指标(peak signal-to-noise ratio,PSNR)和结构相似性指标(structural similarity index measure,SSIM)均高于其他对比算法,主观质量也得到显著提高,能够产生颜色丰富且清晰度较高的增强图像。

QuEChERS EMR-Lipid净化结合超高效液相色谱-串联质谱法快速测定食品中非法添加工业染料

建立采用增强型脂质去除净化填料(enhanced matrix removal lipid,EMR-Lipid)的QuEChERS净化技术结合超高效液相色谱-串联质谱同时测定食品中57种工业染料非法添加的快速分析方法。样品用乙腈提取,提取液经EMR-Lipid净化,采用Agilent ZORBAX Eclipse RRHD C18色谱柱(3.0 mm×150 mm,1.8μm)分离、流动相采用乙腈和体积分数0.1%甲酸溶液进行梯度洗脱、电喷雾电离源正离子模式扫描、多反应监测模式检测、外标法定量。结果表明:57种工业染料在20~300 ng/mL质量浓度内线性关系良好,相关系数r>0.999;方法检出限为10μg/kg、定量限为25μg/kg;在25、100、250μg/kg加标水平下的回收率为72.1%~119.1%,相对标准偏差(n=6)为0.19%~4.58%;采用该方法检测豆制品、调味品、水产品、肉制品各20批次中的工业染料,在1批次花椒粉中检出碱性嫩黄,检出量为32.9μg/kg。所建方法具有快速、准确、灵敏的优点,适用于食品中57种工业染料非法添加的快速测定。

PCB板复杂背景下的Data Matrix码定位与识别

工业二维码的应用环境通常比较恶劣,二维码识别通常伴随着噪声、过曝等问题.对工业二维码进行粗定位时,采用基于亮度、对比度和伽玛变换提高了图像整体的对比度,为阈值分割提供良好的图像基础.再对预处理后的图像采用大律法分割使得背景和前景分离并计算连通域面积和个数,定位可能存在二维码的图像区域.根据DataMatrix码的特征,提出了一种基于Shi-Tomasi角点密度的DataMatrix码快速定位算法.识别时针对二维码过曝的问题,提出了一种改进的伽玛变换算法有效地增强了图像的对比度,为识别提供良好的图像基础.

Multi-criteria decision-making method for evaluation of investment in enhanced geothermal systems projects

Deep geothermal energy presents large untapped renewable energy potential could significantly contribute to global energy needs. However, developing geothermal projects involves uncertainties regarding adequate geothermal brine extraction and huge costs related to preparation phases and consequently drilling and stimulation activities. Therefore, evaluating utilization alternatives of such projects is a complex decision-making problem effectively addressed using multi-criteria decision-making (MCDM) methods. This study introduces the MCDM method utilizing analytic hierarchy process (AHP) and weighted decision matrix (WDM) to assess different utilization alternatives (electricity generation, direct heat use and cogeneration). The AHP method determines the weight of each criterion and sub-criterion, while the WDM calculates the final project grade. Five criteria groups - technological, geological, economic, societal and environmental – comprising twenty-eight influencing factors were selected and used for the assessment of investment in Enhanced Geothermal Systems (EGS) projects. The AHP-WDM method was used by 38 experts from six categories: industry, educational institution, research and technology organization (RTO), small- and medium-sized enterprises (SME), local community and other. These diverse expert inputs aimed to capture varying perspectives and knowledge influence investment decisions in geothermal energy. The results were analysed accordingly. The results underscore the importance of incorporating different viewpoints to develop robust, credible, and effective investment strategies for EGS projects. Therefore, this method will contribute to more efficient EGS project development, enabling thus a greater penetration of the EGS into the market. Additionally, the proposed AHP-WDM method was implemented for a case study examining two locations. Locations were assessed and compared on scenario-based evaluation. The results confirmed the method's adequacy for assessing various end uses and comparing project feasibility across different locations.