Research on the strain gauge mounting scheme of track wheel force measurement system based on high-speed wheel/rail relationship test rig

Purpose-This paper aims to analyze the stress and strain distribution on the track wheel web surface and study the optimal strain gauge location for force measurement system of the track wheel.Design/methodology/approach-Finite element method was employed to analyze the stress and strain distribution on the track wheel web surface under varying wheel-rail forces.Locations with minimal coupling interference between vertical and lateral forces were identified as suitable for strain gauge installation.Findings-The results show that due to the track wheel web’s unique curved shape and wheel-rail force loading mechanism,both tensile and compressive states exit on the surface of the web.When vertical force is applied,Mises stress and strain are relatively high near the inner radius of 710 mm and the outer radius of 1110mmof the web.Under lateral force,high Mises stress and strain are observed near the radius of 670mmon the inner and outer sides of the web.As the wheel-rail force application point shifts laterally toward the outer side,the Mises stress and strain near the inner radius of 710 mm of the web gradually decrease under vertical force while gradually increasing near the outer radius of 1110 mm of the web.Under lateral force,the Mises stress and strain on the surface of the web remain relatively unchanged regardless of the wheel-rail force application point.Based on the analysis of stress and strain on the surface of the web under different wheel-rail forces,the inner radius of 870 mm is recommended as the optimal mounting location of strain gauges for measuring vertical force,while the inner radius of 1143 mm is suitable for measuring lateral force.Originality/value-The research findings provide valuable insights for determining optimal strain gauge locations and designing an effective track wheel force measurement system.

Relationship of Naturally Occurring Antisperm Antibodies in Blood Serum and Seminal Plasma of Cattle Bulls with Sperm Function and Fertility Tests

The study was planned with an objective to assess the level of antisperm antibodies (ASA) in the blood serum and seminal plasma of breeding cow bulls and their relationship with sperm function and fertility tests. ASA was analyzed in blood serum and seminal plasma by SpermMar test, Immuno peroxidase assay (IPA) and Enzyme linked immunoabsorbant assay (ELISA). In SpermMar test, about 54% bulls were with >40% IgG in blood serum against sperm surface antigens, whereas none of the bulls were with >10% IgG in seminal plasma. More than 20% and >10% IgA against sperm surface antigens were detected in the blood serum and seminal plasma of 65.8% and 37% bulls, respectively. Out of 26 bulls, seminal plasma of 21 bulls reacted with spermatozoa both in IPA and IgA latex particles and that of only 12 bulls reacted with IgG. In IPA, about 50% of the bulls had >40% ASA against head surface antigens, whereas, there were 23% bulls with >10% ASA in seminal plasma. Also ELISA indicated a higher antibody titre in blood serum (3200 - 6400) and seminal plasma (40 - 80) of 50% and 42% bulls, respectively. There were 11 bulls with low values of HOST/in vitro acrosome reaction/cervical mucus penetration assay and higher level of either serum or seminal plasma ASA. Our study revealed that a significant level of ASA in serum or seminal plasma may have effect on the fertility of bulls by affecting the sperm function.

SNP分子标记及其在作物品种鉴定中的应用

作物品种鉴定是优良品种选育和推广的重要保障,而合适的检测方法是对品种进行准确鉴定的关键。随着分子标记技术的发展,第3代分子标记SNP逐渐应用到品种鉴定领域。本研究概述了SNP分子标记的特点,分析了高分辨率熔解曲线、竞争性等位基因特异性PCR、基因芯片、测序法、靶向测序基因型检测等5种作物研究中常用的高通量检测方法的特点及适用性,梳理总结了SNP标记在品种真实性鉴定、纯度检测和亲缘关系分析与分类等方面的研究与应用情况,以期为后续利用SNP分子标记进行品种鉴定提供技术参考。

UHPC直拉试验方法与本构关系研究

超高性能混凝土(Ultra-high performance concrete, UHPC)单轴拉伸(直拉)试验是分析UHPC抗拉性能和直拉本构关系的基础性试验,经过对其试件形状与尺寸的优化,试验成功率已得到了较大提升。但由于试件连接方式和局部加强方式的差异,各机构试验成功率参差不齐。为进一步保证直拉试验成功率,采用试验研究和数值模拟的方法系统分析了常见的四种试件连接方式和三种试件局部加强方式对试验成功率的影响,比选出最优试验方法。结果表明:面内夹持装置具有连接可靠、操作简单的优点,适合推广。但夹具的尺寸加工误差或微变形可能导致其与试件的接触面变窄、加剧夹持引发的试件应力集中,致使主裂纹位于测距范围之外;试件与夹具的接触区域进行柔性加强(粘贴碳纤维布)和刚性加强(粘贴铝片)均能有效解决上述问题,提高试验成功率。此外,采用比选的直拉试验方法,探究了钢纤维长径比和体积率对UHPC直拉损伤本构关系的影响。通过声发射(Acoustic emission, AE)监测探究了UHPC在直拉荷载作用下的损伤演化规律,利用声发射参数(累积计数比)构建损伤因子,得到了考虑钢纤维影响的UHPC直拉损伤本构关系。

考虑截面规则性的柱状节理岩体变形及强度特性研究

柱状节理岩体的复杂结构使其现场力学参数的确定存在困难,可靠地估计柱状节理岩体强度及变形特性对工程安全至关重要。结合Voronoi图形及3D打印技术制作不规则柱状节理岩体光敏树脂模具,并制备了具有不同倾角的规则及不规则柱状节理岩体试样。基于开展的单轴压缩试验结果,分析不同截面柱状节理岩体的变形及强度特性差异。根据试样最终破坏形态,揭示柱状节理岩体破坏模式及机制。结合已有研究结果,描述节理面材料对柱状节理岩体破坏形态及强度的影响。基于传统节理系数方法,提出了更能反映柱状节理岩体柱体结构特征的修正节理系数方法。采用修正节理系数法建立规则及不规则柱状节理岩体试验结果与现场变形及强度参数间的经验关系,将所提出计算公式应用于白鹤滩水电站工程,预测结果与现场实测值及RMR法(RMR为岩石质量评分指标)、Q法(Q为岩体质量指标)的预测值进行比较。结果表明,对于现场变形和强度参数,所提出的修正节理系数法的预测结果与现场实测结果较为吻合。

Al/Hf ratio-dependent mechanisms of microstructure and mechanical property of nearly fully dense Al—Hf reactive material

This study proposed three types of Al—Hf reactive materials with particle size ratios(a),which were almost completely dense(porosity of<5.40%)owing to their preparation using hot-pressing technology.Microstructure characteristics and phase composition were analyzed,and the influence of particle size ratios on dynamic mechanical behavior and damage mechanism were investigated.The prepared sample with a=0.1 exhibited continuous wrapping of the Hf phase by the Al phase.Hf—Hf contact(continuous Hf phase)within the sample gradually increased with increasing a,and a small amount of fine Hf appeared for the sample with a=1.The reactive materials exhibited clear strain-rate sensitivity,with flow stressσ0.05and failure strainεfincreasing approximately linearly with increasing strain rate.ε.It is found that the plastic deformation of the material increased with increasing strain rate.As a increased from 0.1 to 1,the flow stress gradually increased.Impact failure of the material was dominated by ductile fracture with a large Al phase plastic deformation band for lower a,while brittle fracture with crushed Hf particles occurred at higher a.Finally,a constitutive model based on BP neural network was proposed to describe the stress-strain relationships of the materials,with an average relative error of 2.22%.

不同责任半规管BPPV与主诉症状关系分析

目的分析确诊良性阵发性位置性眩晕(BPPV)患者的位置性眩晕主诉特征,以及主诉症状与BPPV责任半规管定位诊断的相关性。方法对2022年2-3月因位置性眩晕就诊于该院患者100例完成详细病史问卷调查,以视频眼震图位置试验进行BPPV客观定位诊断,分析确定诊断BPPV与病史主诉的关系。结果100例患者中以坐起-躺下、左右翻身为眩晕主要主诉者分别为39、56例,两者分辨不清5例;位置试验阳性75例,其中BPPV确定诊断63例,其他前庭周围性眩晕12例。分析63例确定诊断BPPV患者的主诉症状,以坐起-躺下眩晕确诊垂直、水平半规管BPPV的灵敏度和特异度分别为70.7%和94.4%、5.6%和29.3%,以左右翻身眩晕确诊水平、垂直半规管BPPV的灵敏度和特异度分别为94.4%和70.7%、29.3%和5.6%。进一步分析63例BPPV患者其位置性眩晕的首发体位,以坐起-躺下者确诊垂直、水平半规管BPPV的灵敏度和特异度为76.9%和55.6%、44.4%和23.1%,左右翻身者确诊水平、垂直半规管BPPV的灵敏度和特异度为55.6%和76.9%、23.1%和44.4%。对30例可明确表述眩晕诱发较重体位侧别的BPPV患者进行分析,右侧位为较重侧13例,左侧位为较重侧17例,余33例对诱发眩晕的左右侧分别描述不清。结论位置性眩晕患者的主诉症状中,“坐起-躺下”和“左右翻身”性眩晕主诉分别对垂直、水平半规管BPPV诊断的灵敏度和特异度高,符合Ewald′s定律;而首发体位及症状较重的体位侧别,对BPPV责任半规管侧别定位诊断的灵敏度和特异度均不高。位置性眩晕患者主诉症状对BPPV快速筛查具有一定的临床价值,确定定位诊断要依靠位置试验。

锈蚀对钢筋与混凝土之间粘结性能影响研究综述

钢筋锈蚀导致横截面积减少,同时锈蚀产物体积膨胀导致混凝土开裂和剥落,影响混凝土与钢筋的粘结能力,对混凝土结构的承载能力和使用寿命产生影响。本文基于国内外广泛的研究成果,分析了不同钢筋锈蚀实验方法的优劣和适用性。对于锈蚀钢筋与混凝土的粘结性能,探讨了中心拉拔试验、偏心拉拔试验和梁式试验的优劣。分别研究了纵筋和箍筋锈蚀对粘结强度的影响,并构建了以钢筋锈蚀率为基础的粘结强度退化模型。锈蚀导致的表面裂缝宽度是评估粘结强度的理想参数,然而基于裂缝宽度的粘结强度退化模型仍然相对较少。在锈蚀钢筋粘结应力-滑移本构模型方面,对未锈蚀和锈蚀钢筋混凝土构件的粘结-滑移关系进行了阐述,然而由于锈蚀钢筋的粘结-滑移曲线测试数据有限,上述模型的可靠性尚未得到验证。本文综述了国内外有关钢筋锈蚀方法和锈蚀钢筋混凝土构件粘结性能的研究方法,分析了纵筋和箍筋锈蚀对粘结强度退化的影响,并归纳总结了基于钢筋锈蚀率和构件表面锈胀裂缝宽度的粘结强度退化模型、以及钢筋混凝土构件粘结-滑移本构关系的最新研究成果。同时,分析了现有研究的不足之处,旨在为未来的钢筋混凝土粘结性能研究提供参考。

含水量对膨胀土高填方渠堤土体剪切特性的影响研究

通过不同含水量下南水北调中线工程高填方渠堤的改性土、膨胀土和渠基土的直剪试验,研究含水量对3种土体剪应力-剪切位移以及抗剪强度的影响规律。结果表明:3种土体的基质吸力随着含水量增加而显著减小;当含水量较低时,剪应力-剪切位移曲线呈剪切软化型;而随含水量的增加,剪应力-剪切位移曲线转化为剪切硬化型。不同土体的抗剪强度随含水量增加均呈现先增大后减小的变化规律,且含水量达到土体的塑性含水量以后,抗剪强度降低较小。含水量对改性土、回填膨胀土和渠基土的黏聚力及内摩擦角存在着显著影响,黏聚力与含水量满足二次多项式关系;土体的内摩擦角随着土体含水量的增加呈现出非线性减小的变化规律,且渠堤改性土内摩擦角随含水量的降低幅度较渠堤膨胀土和渠基土大。

随机应力循环加卸载三轴试验土的变形稳定状态初探

为研究土在随机应力幅值循环加卸载条件下的应力-应变关系,基于土样全表面变形数字图像测量系统,以福建标准砂和硅微粉为研究对象进行一系列三轴试验。据此分析土样在不同随机应力循环加卸载过程的应力-应变行为,判断其是否达到变形稳定状态,同时与等应力幅值循环加卸载和阶梯应力幅值循环加卸载试验进行对比。结果表明:无论是恒定应力幅值、阶梯应力幅值还是随机应力幅值加卸载循环,当循环次数超过一定次数后,土样逐渐趋于变形稳定状态,且变形稳定状态对应的循环次数值不同;土在受到超过历史最大应力幅值时,应力-应变关系会回到初次单调加载的应力-应变曲线;在最大应力值小于破坏应力的条件下,应力加卸载时间过程幅值的随机特征,如幅值大小和分布对土的应力-应变行为,包括变形稳定状态没有影响。

不同温度-围压-气体压力下煤体蠕变-渗流演化规律

为实现深部煤层气的高效开采,通过研究不同温度、围压和气体压力下煤体蠕变变形和渗透率演化规律,得到多因素作用下煤体蠕变-渗流耦合关系;采用自行设计的岩石三轴蠕变-渗流装置,对焦煤进行多因素变量下的压缩蠕变-渗流试验。结果表明:温度与煤样的蠕变呈正相关性,随温度的增加焦煤煤样径向和轴向应变变化速率增大且高温(110℃)下这种变化会一直持续直至煤样破裂;围压强度3 MPa与4 MPa的焦煤煤样在温度30、70、110℃下其气体渗透率降低率最大和最小差值分别为7.8%、5.2%、6.5%和4.2%、2.1%、1.9%;焦煤煤样的渗透率最大降低率随着温度水平升高而增大,试验温度110、70、30℃下的焦煤煤样的气体渗透率最大降低率均值依次为91%、84.6%、73.25%。

基于60N钢轨廓形的客货共线铁路道岔区轮轨接触关系

为了研究客货共线铁路采用60N钢轨廓形时道岔区的轮轨关系,以标准60 kg/m钢轨为对比,首先建立多体动力学模型,采用基线法,从导曲线区、转辙器区及辙叉区三个部分的特征断面入手,研究了采用两种钢轨廓形时轮轨接触位置、轮径差等关键轮轨接触几何参数的变化规律;然后,建立轮轨接触有限元模型,计算分析各特征断面轮轨接触应力变化情况。结果表明:相比标准60 kg/m钢轨,车轮与60N钢轨廓形匹配时,接触点分布更集中,轮径差变化较小,接触斑呈椭圆形,应力增长相对缓和,但在转辙器区及辙叉区过渡较急促;60N钢轨廓形更适合工况较简单的导曲线区段,而标准60 kg/m钢轨廓形更适合工况较为复杂的转辙器区及辙叉区。

基于元启发优化算法的数值型蜕变关系生成方法

针对蜕变测试难以获取蜕变关系且容易出现错误导致测试成本过高的问题,提出一种基于元启发优化算法的数值型蜕变关系生成方法。通过分析数值型蜕变关系的数学特征并组合等式与不等式关系,构成输入、输出参数矩阵。结合粒子群和模拟退火两种元启发优化搜索算法,设定合适的代价函数,将构成的参数矩阵作为搜索粒子,搜索并生成各种等式、不等式的蜕变关系。实验结果表明,与仅使用一种搜索算法相比,所提方法能够在不改变解的类型情况下跳过局部最优,节省时间开销,提高了蜕变关系生成效率。

基于生态共生的边境地区旅游与贸易协同演进研究:来自桂滇边境11市的实证

改革开放以来,兴边富民、“一带一路”等政策、倡议的实施促进了边境地区贸易与旅游的迅速发展,带动了边境地区经济的发展。厘清边境地区旅游与贸易的关系对制定相关政策、促进两者协同发展具有重要的作用。文章基于生态共生理论,运用静态回归模型、格兰杰因果检验等方法,从整体和个体层面探究两者间的共生关系及内在机制。结果表明:在共生关系方面,无论是整体区域还是单体城市,边境地区旅游与贸易之间均存在非对称互惠共生关系。格兰杰因果关系检验分析显示,对整体区域而言,进出口贸易对旅游收入有推动作用,尤其是进口贸易对旅游收入有促进作用;对单体城市而言,出口贸易、进口贸易、进出口贸易与旅游收入之间有显著关系的城市数量分别是1个、4个和3个,进一步验证了边境地区旅游与贸易共生关系的不对称性。内外源双轮共同驱动构建了边境地区旅游与贸易的共生环境,旅游与贸易之间要素流动与转化推动了共生关系的形成。

2023年广东高考生物学卷第21题科学思维测评分析

科学思维是测评生物学学科核心素养的重要内容。2023年广东生物学卷第21题,围绕红树林修复特色情境,根据事物的因果关系,设问层层递进,逻辑严谨清晰,测评了科学思维的判断、解释、预测、设计四个水平。

氯唑沙宗杂质的遗传毒性研究

目的:本试验在体外条件下研究氯唑沙宗杂质是否具有遗传毒性,为临床用药安全提供依据。方法:采用Derek和Sarah方法,从定量构效关系(Q)SAR的角度对氯唑沙宗杂质进行分类和评价。对于软件预测结果为阳性的杂质,进一步采用细菌回复突变试验验证上述结果。结果:氯唑沙宗杂质6(CAS:889884-60-0)、杂质7(CAS:28443-50-7)的Derek和Sarah软件预测结果为阳性。细菌回复突变试验中,杂质6、杂质7在15~1250μg/皿剂量范围内,在代谢活化系统S9存在或不存在的情况下,五种菌株的回变菌落数均未超过自发回变菌落数2倍以上,试验结果为阴性。结论:氯唑沙宗杂质6、杂质7体外细菌回复突变试验结果均为阴性,可以按照非遗传毒性杂质进行控制。

建筑消防设施检测的社会效益和经济效益分析

本文从建筑消防设施检测的内容、特征入手,分析探讨建筑消防设施检测社会效益和经济效益之间的关系,二者是相互依存、相互作用,又是彼此矛盾的。为协调二者的关系,应发挥社会效益的主导作用,坚持把社会效益放在首位,同时提高企业经济效益,推动社会效益和经济效益的统一管理。

城市轨道交通靴轨关系试验台研制

为了利用试验设备开展靴轨受流与磨耗研究工作,根据城市轨道交通靴轨受流特点,研制靴轨关系试验台。详细介绍试验台各组成部分、工作原理及试验过程。仿真计算及试验验证表明,试验台能够较为真实地模拟现场集电靴滑板与接触轨的受流与磨耗情况,靴轨关系试验台的可靠性满足需求。

城陵矶(七里山)水文站单断沙关系分析

为了研究城陵矶(七里山)水文站综合单断沙关系线,减少城陵矶(七里山)水文站输沙测验次数,提高洞庭湖入汇长江输沙量计算精度,采用相关系数法对该站2007~2021年间单断沙实测整编成果进行单断沙相关性分析。结果表明:综合单断沙关系线采用Cs断=0.984 8Cs单(Cs断为断面平均含沙量,Cs单为单位含沙量)关系式时,各年单断沙关系线与综合单断沙关系线最大相对偏离为-1.52%,年平均含沙量、年输沙量推求误差均不大于3%,满足规范要求。研究成果可为优化城陵矶(七里山)水文站含沙量测验方案提供参考。

New Inverse Method for Determining Uniaxial Flow Properties by Spherical Indentation Test

The spherical indentation test has been successfully applied to inversely derive the tensile properties of small regions in a non-destructive way.Current inverse methods mainly rely on extensive iterative calculations,which yield a considerable computational costs.In this paper,a database method is proposed to determine tensile flow properties from a single indentation force-depth curves to avoid iterative simulations.Firstly,a database that contain numerous indentation force-depth curves is established by inputting varied Ludwic material parameters into the indentation finite elements model.Secondly,for a given experimental indentation curve,a mean square error(MSE)is designated to evaluate the deviation between the experimental curve and each curve in the database.Finally,the true stresses at a series of plastic strain can be acquired by analyzing these deviations.To validate this new method,three different steels,i.e.A508,2.25Cr1 Mo and 316L are selected.Both simulated indentation curves and experimental indentation curves are used as inputs of the database to inversely acquire the flow properties.The result indicates that the pro-posed approach provides impressive accuracy when simulated indentation curves are used,but is less accurate when experimental curves are used.This new method can derive tensile properties in a much higher efficiency compared with traditional inverse method and are therefore more adaptive to engineering application.