基于Swin Transformer网络与Adapt-RandAugment数据增强方法的小肠胶囊内镜图像分类方法研究

目的:为提高小肠病变分类识别的准确性,提出一种基于Swin Transformer网络与Adapt-RandAugment数据增强方法的小肠胶囊内镜图像分类方法。方法:基于RandAugment数据增强子策略和增强小肠胶囊内镜图像时不丢失特征、不失真的原则提出Adapt-RandAugment数据增强方法。在公开的小肠胶囊内镜图像Kvasir-Capsule数据集中,基于Swin Transformer网络,采用Adapt-RandAugment数据增强方法进行训练,以卷积神经网络ResNet152、DenseNet161为基准,验证Swin Transformer网络和Adapt-RandAugment数据增强方法组合对小肠胶囊内镜图像分类识别的性能。结果:提出的方法宏平均精度(macro average precision,MAC-PRE)、宏平均召回率(macro average recall,MAC-REC)、宏F1分数(macro average F1 score,MAC-F1-S)分别为0.3832、0.3148、0.2905,微平均精度(micro average precision,MIC-PRE)、微平均召回率(micro average recall,MIC-REC)、微平均F1分数(micro average F1 score,MIC-F1-S)均为0.7553,马修斯相关系数(Matthews correlation coefficient,MCC)为0.4523,均优于ResNet152和DenseNet161网络。结论:基于Swin Transformer网络与Adapt-RandAugment数据增强方法的小肠胶囊内镜图像分类方法具有较好的小肠胶囊内镜图像分类识别效果和较高的识别准确率。

黄杞苷干预NF-κB信号通路抑制巨噬细胞炎症反应及氧化应激

目的探讨黄杞苷对脂多糖(LPS)诱导的小鼠RAW264.7巨噬细胞增殖、炎症反应及氧化应激的干预效果及分子机制。方法RAW264.7细胞随机分为对照组、LPS组和不同浓度黄杞苷干预组,于不同培养时间用四甲基偶氮唑蓝(MTT)法检测细胞的增殖;ELISA检测上清液中肿瘤坏死因子-α(TNF-α)、白细胞介素-6(IL-6)和白细胞介素-1β(IL-1β)浓度;试剂盒检测细胞活性氧(ROS)、超氧化物(O_(2)·^(-))和一氧化氮(NO)的释放量;Western blot检测NF-κB信号通路中IκBα、p65、p-p65蛋白的表达。结果LPS组较对照组细胞增殖增加,而100、200、400、600、800μmol/L黄杞苷均能抑制LPS诱导的细胞增殖,其中400μmol/L黄杞苷干预效果最明显。LPS组细胞产生的TNF-α、IL-6、IL-1β、ROS、O_(2)·^(-)和NO较对照组升高,400μmol/L黄杞苷可降低LPS诱导TNF-α、IL-6、IL-1β、ROS、O_(2)·^(-)和NO的产生。LPS组细胞IκBα蛋白水平下调,p65蛋白、p-p65蛋白水平上调,而黄杞苷可抑制LPS诱导的IκBα蛋白水平下调,p65蛋白、p-p65蛋白水平上调。结论黄杞苷可能通过干预NF-κB信号通路,抑制LPS诱导RAW264.7细胞增殖、炎症因子和ROS/活性氮簇(RNS)产生,显示了重要的抗炎和抗氧化功效,为其治疗炎症性疾病的深入研究提供一定的依据和借鉴。

非创伤性修复治疗技术在儿童乳牙龋齿治疗中的临床应用效果

目的分析儿童乳牙龋齿治疗中使用非创伤性修复治疗技术的临床效果。方法98例儿童乳牙龋齿患儿,按照不同的治疗方式分为对照组和研究组,每组49例。对照组接受常规修复治疗,研究组接受非创伤性修复治疗。比较两组患儿治疗效果、治疗修复时间、视觉模拟评分法(VAS)评分、治疗依从性。结果研究组中治疗显效20例(40.82%),有效27例(55.10%),无效2例(4.08%),治疗总有效率为95.92%;对照组中治疗显效17例(34.69%),有效24例(48.98%),无效8例(16.33%),治疗总有效率为83.67%。研究组治疗总有效率高于对照组,差异具有统计学意义(P<0.05)。研究组患儿治疗修复时间(23.16±3.56)min短于对照组的(40.05±5.13)min,VAS评分(2.71±0.53)分低于对照组的(4.13±0.76)分,差异具有统计学意义(P<0.05)。研究组患儿治疗依从性91.84%(45/49)高于对照组的69.39%(34/49),差异具有统计学意义(χ^(2)=7.900,P<0.05)。结论儿童乳牙龋齿在临床治疗中使用非创伤性修复治疗技术能够提升治疗效果,进一步缩短治疗时间,缓解患儿疼痛感,提升治疗依从性,值得临床中广泛使用。

石蜡基新型定形相变蓄热材料的热物性分析

本文制备并测试分析了不同质量分数为0%、10%、20%、30%、40%的银铜粉/10%膨胀石墨/石蜡复合相变材料的潜热值、导热系数,同时进一步设计实验研究了此复合材料在整个相变过程中的换热性能。实验结果表明,20%银铜粉/10%膨胀石墨/石蜡新型定形相变材料拥有较低的渗漏率,潜热值衰减了约21.5%,但导热系数提高了555%。同时,相比纯石蜡,该定形相变材料在相变过程中的换热速度和蓄热能力均有明显提高,且此比例下,该定形相变蓄热材料的性能总体较好。

铜/钢/铜冷轧复合薄带弯曲性能实验研究

以Q345钢带为基材,T3纯铜为覆材,通过冷轧复合—中间退火—冷轧减薄—轧后退火的工艺路线,制备出铜/钢/铜复合薄带.通过反复弯曲实验研究复合带厚度和退火温度对复合带弯曲性能的影响.实验发现:复合带的弯曲性能主要依赖于冷轧复合中的机械作用以及退火过程中的扩散作用.冷轧复合带随着厚度逐渐减薄,弯曲性能近似线性增强.退火工艺能大幅度提高复合带的弯曲性能,退火温度与弯曲性能基本呈指数关系变化.

双相钢差厚板退火过程的温度场

为了获得性能可控的冷轧双相钢差厚板,需要了解其退火过程中的温度变化规律.采用ABAQUS有限元软件模拟双相钢差厚板在退火过程中不同厚度处的温度分布,结果发现,当差厚板不同区域有相同的冷却速度时,冷却速度越大,厚区与薄区对流换热系数之比越接近差厚比,从2.12变为2.03,且对流换热系数与冷却速度为线性关系;当差厚板不同区域的冷却强度相同时,随着冷速的增加,差厚板薄、厚区温差增大,从124℃升至141℃.随着差厚板斜率的增加,温度影响区长度增加.

国医大师孙光荣论继承师尊独有的学术经验

孙光荣教授对于如何继承师尊独有的学术经验,有其独到见解,认为中医历来重师承,受其衣钵求其真;侍诊抄方入门径,整理提炼最为珍;探明导师成才路,找准差距阙中寻;德学才识皆须学,非求一方一药灵;临床重在思辨法,从何入手辨诸证;组方用药何特点,习用何典最用心;搜集案例详阐释,形成专著高徒成。

含孔双裂隙3D打印类岩石试件破裂行为定量识别

为研究含孔双裂隙岩石的力学特性及破裂机制,采用3D砂型打印技术制作含孔双裂隙类岩石试件,结合数字图像相关方法(digital image correlation,DIC)对压缩过程中的试件进行非接触式、全场观测。计算水平应变、垂直应变和剪切应变3个分量的协方差矩阵,引入应变场有效方差量化分析和识别试件破裂行为。研究结果表明:3D砂型打印标准试件的力学性能与真实砂岩相似,且试验结果离散性低,可归结为类岩石材料。预制裂隙劣化了试件的力学性能,相比于含孔无裂隙试件,含孔双裂隙试件的抗压强度和弹性模量分别降低了8.04%~38.91%和14.44%~27.78%。结合DIC计算结果,成功识别出3种基本裂纹,即张拉裂纹(I型)、剪切裂纹(II型)和拉剪混合裂纹(I-II复合型)。含孔双裂隙试件均表现为拉剪混合破坏;孔洞和裂隙之间的贯通模式受两者之间水平距离的影响,可分为张拉贯通、转动贯通以及拉剪混合贯通。应变场有效方差能够全面、深入地反映应变数据的离散程度,初始压密和弹性阶段的应变场有效方差接近于0,裂纹萌生后表现出不同的演化规律。在此基础上,提出一种基于应变场有效方差的裂纹类型定量识别方法。有效方差的增长速率介于0.72×10^(-2)~1.89×10^(-2),可识别为张拉裂纹;介于2.34×10^(-2)~3.59×10^(-2),可识别为拉剪混合裂纹;介于9.63×10^(-2)~32.40×10^(-2),可识别为剪切裂纹。

Opti mization and Model of Laminar Cooling Control Systemfor Hot Strip Mills

The structure of laminar cooling control system for hot rolling was introduced and the control mode, cooling strategy, segment tracking and model recalculation were analyzed. The parameters of air/water cooling models were optimized by regressing the data gathering in situ, and satisfactory effect was obtained. The coiling temperature can be controlled within ±15℃.

基于优化经验模态分解和聚类分析的滑坡位移智能预测研究

针对三峡库区"阶跃式"滑坡的变形特征,提出了一种新的滑坡位移预测方法。以白水河滑坡ZG118和XD-01监测点位移数据为例,采用基于软筛分停止准则的经验模态分解(SSSC-EMD)将累计位移-时间曲线和影响因子时间序列自适应地分解为多个固有模态函数(IMF),并采用K均值(K-Means)聚类法对其进行聚类累加,得到有物理含义的位移分量(趋势性位移、周期性位移以及随机性位移)和影响因子分量(高频影响因子和低频影响因子)。使用最小二乘法对趋势性位移进行拟合预测;采用果蝇优化-最小二乘支持向量机(FOA-LSSVM)模型对周期性位移和随机性位移进行预测。将各位移分量预测值进行叠加处理,实现滑坡累计位移的预测。研究结果表明,所提出的(SSSC-EMD)-K-Means-(FOA-LSSVM)模型能够预测"阶跃式"滑坡的位移变化规律,且预测精度高于传统的支持向量机回归(SVR)、最小二乘支持向量机(LSSVM)模型;并通过改变训练集长度,进行单因素分析,发现其与预测精度之间呈正相关关系。

Hot Strip Laminar Cooling Control Model

The hydraulic automatic gauge control system using gap loop for cold mill was designed. The stiffness of HCW cold mill was defined for gap loop, and the dynamic model of gauge control system for gap loop was built with mechanism analysis. The stiffness for gap loop and the cylinder displacement loop were measured.

Numerical Simulation on Carburizing and Quenching of Gear Ring

The carburizing process of the gear ring was simulated by taking into account the practical carburizing and quenching techniques of the gear ring and by solving the diffusion equation. The carbon content distribution in the carburized layer was obtained. Based on the results, the quenching process of the gear ring was then simulated using the metallic thermodynamics and FEM： it was found that the carburization remarkably affects the quenching process. Microstructures and stress distributions of the gear ring in the quenching process were simulated, and the results are confirmed by experiments.

Effect of Austenite Deformation on Continuous Cooling Transformation Microstructures for 22CrSH Gear Steel

The effect of compressive deformation of austenite on continuous cooling transformation microstructures for 22CrSH gear steel has been investigated using a Gleeble 1500 thermal simulator. The experimental results show that the deformation of austenite promotes the formation of proeutectoid ferrite and pearlite, and leads to the increase of critical cooling rate of proeutectoid ferrite plus pearlite microstructure. The grain boundary allotriomorphic ferrite occupies the austenite grain surfaces when the prior deformation takes place or the cooling rate is decreased, which causes a transition from bainite to acicular ferrite. The deformation enhances the stability of transformation from austenite to acicular ferrite, which results in an increase of M/A constituent.

国内医用体温计临床使用计量质控现状分析

阐述了国内外医用无汞体温计的临床应用现状,介绍了玻璃体温计、电子体温计、变色体温计3种类型的国内医用体温计计量质控现状,分析了国内医用体温计存在临床需求量大、不同类别体温计测量结果差异性较大、缺少规范性,水银体温计的替换缺乏有效的实施方案及无汞体温计与临床使用过程质量控制标准体系不完善的问题。指出了应制订有效的水银体温计可行性替换方案,进行区域化的体温计计量质控体系建设及深入无汞体温计临床使用过程研究,建立无汞体温计的使用操作规范,对《关于汞的水俣公约》的实施、水银体温计替换方案的制订具有重要的参考价值。

Coupled Simulation of Flow and Thermal Field of Twin-Roll Strip Casting Process

The first micro-segregation under conditions of twin roll strip casting was simulated.The relationship between the temperature and solid fraction in the mushy zone was given.The temperatures such as ZDT,LIT were got from this simulation.Then using the turbulent model,the flow field and thermal field in the pool of twin-roll strip caster was simulated.The speed and temperature at different casting speed was given,and the results were also explained.By these two simulations,the appropriate casting speed can be found.These simulations can provide effective data for controlling the twin-roll strip casting process.

FEM Analysis of Rolling Pressure Along Strip Width in Cold Rolling Process

Using 3-D elastic-plastic FEM, the cold strip rolling process in a 4-high mill was simulated. The elastic deformation of rolls, the plastic deformation of the strip, and the pressure between the work roll and the backup roll were taken into account. The distribution of rolling pressure along the strip width was obtained. Based on the simulation results, the peak value of rolling pressure and the location of the peak were analyzed under different rolling conditions. The effects of the roll bending force and the strip width on the distribution of rolling pressure along the width direction were determined.

医用耗材使用合理性管理方法探讨

目的:探讨医用耗材合理使用的管理方法,指导医学工程部门对医用耗材进行规范、合理的监管。方法:采用卫生技术评估(health technology assessment,HTA)技术,基于单病种/临床路径和医疗保险、物价收费的医用耗材管理方法,结合某院管理实践经验,确定医用耗材使用数据方面的合理性指标,并对各科室医用耗材使用情况进行监测。结果:耗占比、科室医用耗材用量、人均医用耗材用量、人均高值耗材用量、人均低值耗材用量等核心指标可用于监管医用耗材的合理使用。结论:核心监测指标在医用耗材使用合理性管理方面发挥了重要作用,充分利用核心监测指标可促进预警机制的建立,提高医用耗材临床使用合理性。

Development of Hot Dip Galvanized Steel Strip and Its Application in Automobile Industry

Hot dip galvanized product is widely used in architecture, household electric appliance, ship vehicle, vessel, mechano-electronic device and other fields including clothing, food, housing, and travel. The history, development, market need, and technological advancement of hot dip galvanized strip, production situation, and development tendency in China are briefly introduced. The fact that it is necessary to build new and auto galvanized strip line with the development of the iron and steel industry in China.

Behavior of Transversal Crack on Slab Corner During V-H Rolling Process

The behavior of transversal cracks on the surface of the slab corner during vertical and horizontal （V-H） rolling process with flat vertical roll and groove vertical roll was simulated by explicit dynamic finite element method. The closure and growth of crack and the contact pressure on surfaces of the crack in contacting zone between slab and roll during rolling process were analyzed. The results showed that during vertical rolling process, when the groove vertical roll is used, the maximum contact pressure on surfaces of the crack is 115 MPa, and the closure of crack is stable when the flat vertical roll is used, the maximum contact pressure on surfaces of the crack is 70 MPa, and it fluctuates greatly. During horizontal rolling process, when groove vertical roll is used, the contact pressure becomes zero which may accelerate the growth of crack when flat vertical roll is used, there is still contact pressure. The cal culated results are in good agreement with the results of test.

Explicit Dynamic FEM Analysis of Multipass Vertical-Horizontal Rolling

Three passes of plate rolling during vertical-horizontal rolling process are simulated with explicit dynamic finite element method and updating geometric method. The equivalent strain and stress fields, and shape change at the head and tail of slab during rolling are obtained. The calculated result of the shape at the head and tail of slab is in good agreement with the measured one. The explicit dynamic finite element method and updating geometric method can be used effectively to analyze the multipass vertical-horizontal （V-H） rolling process.