Flexible substructure online hybrid test system using conventional testing devices

This paper presents a substructure online hybrid test system that is extensible for geographically distributed tests. This system consists of a set of devices conventionally used for cyclic tests to load the tested substructures onto the target displacement or the target force. Due to their robustness and portability, individual sets of conventional loading devices can be transported and reconfigured to realize physical loading in geographically remote laboratories. Another appealing feature is the flexible displacement-force mixed control that is particularly suitable for specimens having large disparities in stiffness during various performance stages. To conduct a substructure online hybrid test, an extensible framework is developed, which is equipped with a generalized interface to encapsulate each substructure. Multiple tested substructures and analyzed substructures using various structural program codes can be accommodated within the single framework, simply interfaced with the boundary displacements and forces. A coordinator program is developed to keep the boundaries among all substructures compatible and equilibrated. An Interuet-based data exchange scheme is also devised to transfer data among computers equipped with different software environments. A series of online hybrid tests are introduced, and the portability, flexibility, and extensibility of the online hybrid test system are demonstrated.

Study on the Constitutive Model of Marble Based on the Conventional Triaxial Compression Test

The RMB-150B rock mechanics test system was employed to obtain the complete stress-strain test curves under confining pressures of 0-30MPa for marble samples from Ya'an ,Sichuan province. On the basis of former study and the convention triaxial pressure test results ,the complete procedures curves which described the relationships between yielding strength、 peak strength、 residual strength and confining pressure was obtained. Taking the strain softening of rock into account, the bilinear elastic-linear softening-residual perfect plasticity four-linear model was put forward in this paper on the basis of the test results and theory of plasticity. This model was adopted to describe the behaviors of marble in different phases under triaxial compression with the constitutive equation of strain softening phase as focus. The results indicated that the theoretic model fitted in well with the test results.

A Biomechanical Comparison of Conventional versus an Anatomic Plate and Compression Bolts for Fixation of Intra-articular Calcaneal Fractures

The purpose of this study was to compare the biomechanical stability obtained by using our technique featured an anatomical plate and compression bolts versus that of the conventional anatomic plate and cancellous screws in the fixation of intraarticular calcaneal fractures.Eighteen fresh frozen lower limbs of cadavers were used to create a reproductive Sanders type-Ⅲ calcaneal fracture model by using osteotomy.The calcaneus fractures were randomly selected to be fixed either using our anatomical plate and compression bolts or conventional anatomic plate and cancellous screws.Reduction of fracture was evaluated through X radiographs.Each calcaneus was successively loaded at a frequency of 1 Hz for 1000 cycles through the talus using an increasing axial force 20 N to 200 N and 20 N to 700 N,representing the partial weight bearing and full weight bearing,respectively,and then the specimens were loaded to failure.Data extracted from the mechanical testing machine were recorded and used to test for difference in the results with the Wilcoxon signed rank test.No significant difference was found between our fixation technique and conventional technique in displacement during 20-200 N cyclic loading(P=0.06),while the anatomical plate and compression bolts showed a great lower irreversible deformation during 20-700 N cyclic loading(P=0.008).The load achieved at loss of fixation of the constructs for the two groups had significant difference:anatomic plate and compression bolts at 3839.6±152.4 N and anatomic plate and cancellous screws at 3087.3±58.9 N(P=0.008).There was no significant difference between the ultimate displacements.Our technique featured anatomical plate and compression bolts for calcaneus fracture fixation was demonstrated to provide biomechanical stability as good as or better than the conventional anatomic plate and cancellous screws under the axial loading.The study supports the mechanical viability of using our plate and compression bolts for the fixation of calcaneal fracture.

Improvements to conventional X-ray tube-based cone-beam computed tomography system

Conventional X-ray tube-based cone-beam computed tomography(CX-CBCT) systems have great potential in industrial applications. Such systems can rapidly obtain a three-dimensional(3D) image of an object.Conventional X-ray tubes fulfill the requirements for industrial applications, because of their high tube voltage and power. Continuous improvements have been made to CX-CBCT systems, such as imaging time shortening,acquisition strategy optimization, and imaging software development, etc. In this study, a CX-CBCT system is developed. Additionally, some improvements to the CX-CBCT system are proposed based on the hardware conditions of the X-ray tube and detector. A near-detector(ND)geometry condition is employed to obtain a sharper image and larger detection area. An improved acquisition strategy is proposed to simplify operations and reduce total imaging time. In the ND geometry condition, a simplified method called FBP slice stacking(SS-FBP) is proposed, which can be applied to 3D image reconstruction. SS-FBP is timesaving relative to traditional methods. Furthermore, imaging software for the CX-CBCT system is developed in the MATLAB environment. Several imaging experiments were performed. The results suggest that the CX-CBCT system works properly, and that the above improvements are feasible and practical.

10Gb/s1 070km Conventional Single Mode Fiber Transmission Experiment Using a Recirculating Loop

The fundamental theory and accomplishing method of optical fiber recirculating loop test is presented. The experiment results of 10Gb/s over 1000km conventional single mode fiber (SMF) transmission using recirculating loop for the first time in China are reported and analyzed.

基于CT扫描研究颗粒形状对砂土力学性质的影响

为了探究颗粒形状对砂土力学性质的影响,选取玻璃珠、石英砂、玻璃渣3种颗粒形状差异较大的砂土作为研究对象。首先通过计算机断层(computed tomography,CT)扫描重构了3种砂土的三维结构,选取了伸长率(EI)、扁度(FI)、球度(S)3个表征颗粒形状参数的均值作为砂土颗粒整体形状参数(overall regularity,OR),并对整体形状参数OR进行统计分析。然后配制7种不同形状参数的砂土进行了常规三轴压缩试验得到了其力学强度参数,研究砂土颗粒形状对其力学强度的影响规律。结果表明:7种砂土的应力-应变曲线均为应变软化型,都呈现出先剪缩后剪胀的特性;整体形状参数OR能较好反映砂土的力学特征,即随着整体形状参数OR的减小,应变软化现象变得不明显,但其峰值偏应力呈增大的趋势;砂土的内摩擦角随整体形状参数OR的减小呈线性增长,表观黏聚力急剧增大,但最大剪胀角随OR的减小而减小。此外,将临界内摩擦角与整体形状参数OR进行线性拟合,得到了两者较好的线性关系。

微波和传统加热下混凝土劈裂抗拉性能分析

近年来,微波辅助混凝土粗骨料回收技术因其绿色性、高效性及低损伤性引起国内外学者广泛关注。该文采用工业微波多模谐振腔及传统马弗炉对圆柱体混凝土试样进行不同条件下的加热实验,探讨了混凝土在两种加热方式下的加热效率、宏观裂纹扩展与破坏模式、劈裂抗拉强度弱化规律以及加热参数对能耗和能效的影响规律。此外,借助扫描电镜分析了微波照射下混凝土的抗拉强度弱化机理。实验结果表明:微波加热技术具有更高的加热效率,能够有效地促使裂纹沿砂浆-骨料界面扩展,从而削弱混凝土强度;并且高微波功率下混凝土加热效率更高,强度损失更大,能量消耗更少。反之,传统加热下砂浆-骨料界面结构紧凑,未出现可见裂纹,加热过程能量利用率仅1%左右。

血栓弹力图联合常规凝血指标在流行性出血热患者内源性肝素检测中的应用

目的应用血栓弹力图(thromboelastography,TEG)联合常规凝血指标(conventional coagulation tests,CCTs)检测流行性出血热(epidemic hemorrhagic fever,EHF)患者内源性肝素物质,探讨TEG联合CCTs对该类患者凝血功能异常的检测价值,为临床治疗提供指导依据。方法对35名EHF患者分别在轻/中症期、重症期和恢复期进行APTT、TT、血栓弹力图普通杯R值和血栓弹力图肝素酶杯R值检测。使用Friedman方差分析进行统计学处理。结果EHF轻症病例的R值和肝素杯R值均数为7.5和6.7,恢复期病例的TT、R值和肝素酶杯R值分别为16.9、6.2和6.1,轻症病例的普通杯R值和肝素酶杯R值,以及恢复期病例的TT、R值和肝素酶杯R值均为正态分布,其余均为非正态分布。EHF患者在不同疾病进展期APTT、TT的变化,具有统计学差异(P<0.05),同时患者的血栓弹力图R值(凝血反应时间)也显示在轻中症、重症和恢复期的差别有统计学意义(P<0.05),与轻中症期相比,重症期的APTT、TT和R值延长,说明患者凝血功能继续降低;在轻中度、重度和恢复期,EHF患者的R值减去肝素酶杯R值的差异具有统计学意义(P<0.05),重症期内源性肝素样物质的残留积累高于轻中症和恢复期。结论EHF患者在不同疾病进展期APTT、TT和R值的变化具有显著性差异,TEG联合CCTs检测显示内源性肝素样物质的蓄积是可能导致EHF患者凝血功能紊乱的重要原因之一。采用TEG与CCTs组合检测的方法可以及时发现内源性肝素样物质的累积,为临床医师采取有针对性的治疗方案提供实验室依据。

联合凝血功能指标在结直肠癌患者化疗后高凝状态监测中的应用价值

背景与目的:常规凝血实验(conventional coagulation test,CCT)检测所用的血浆仅能够反映某个凝血时间点/段的单一成分,而血栓弹力图(thromboelastography,TEG)检测能够描绘凝血及纤维蛋白溶解的整体动态过程的曲线,更能独立完整地反映血液的真实状态,可作为凝血功能检测的补充。本研究旨在评估联合凝血功能指标在结直肠癌患者化疗后高凝状态监测中的应用价值,探讨结直肠癌患者化疗后血栓形成的危险因素,为临床监测高凝状态提供参考。方法:选取复旦大学附属肿瘤医院2021年6月—2023年6月收治的160例结直肠癌患者作为实验组,并选取同期的80名健康体检者作为对照组,再将实验组以是否合并血栓分为未合并血栓组(82例)和合并血栓组(78例)。研究3组对象的TEG[包括凝血反应时间(coagulation reaction time,R)、凝血形成时间(coagulation formation time,K)、血细胞凝块形成速率(blood clot formation rate,Angle)、血栓最大振幅(maximum amplitude,MA)和凝血综合指数(coagulation index,CI)]、CCT[包括活化部分凝血活酶时间(activated partial thromboplastin time,APTT)、凝血酶原时间(prothrombin time,PT)、凝血酶时间(thrombin time,TT)、纤维蛋白原(fibrinogen,Fib)、D-二聚体(D-dimer,DD)和纤维蛋白原降解产物(fibrinogen degradation products,FDP)]及血小板计数(platelet count,PLT)的差异。以是否合并血栓作为高凝状态的标准,选择其中差异有统计学意义的指标纳入二元logistic回归分析,并绘制受试者工作特征(receiver operating characteristic,ROC)曲线,分析单独及联合检测凝血功能指标对结直肠癌患者化疗后高凝状态的诊断效能。收集160例结直肠癌患者的基础信息、肿瘤分期和深静脉血栓Autar评估量表,进行logistic回归分析,探索血栓形成的危险因素。本研究经复旦大学附属肿瘤医院伦理委员会审核通过(编号:050432-4-2108*)。结果:与对照组相比,未合并血栓组的R、TT和PLT均减小(P<0.05),APTT、PT、DD和FDP均增大(P<0.05);合并血栓组与对照组的各项指标差异均有统计学意义(P<0.05)。与未合并血栓组相比,合并血栓组的K减小(P<0.05),Angle、MA、CI、Fib、DD和FDP均增大(P<0.05)。ROC曲线分析显示,在结直肠癌患者化疗后高凝状态评估中,TEG检测的曲线下面积(area under curve,AUC)为0.756,灵敏度为67.5%,特异度为73.8%;CCT检测的AUC为0.691,灵敏度为78.8%,特异度为56.2%;联合检测的AUC为0.840,灵敏度为80.0%,特异度为77.5%。在危险因素分析中,肿瘤分期、远处转移和Autar评分与结直肠癌患者化疗后血栓的形成相关(P<0.05),3个危险因素在K、Angle、MA、CI、Fib、DD和FDP中的差异也有统计学意义(P<0.05)。结论:K、Angle、MA、CI、Fib、DD和FDP是反映高凝状态的主要指标,TEG与CCT联合检测能更好地反映结直肠癌患者化疗后的凝血状态。肿瘤分期为Ⅲ~Ⅳ期、有远处转移和Autar评分高可能是血栓形成的危险因素,提示可通过监测高危人群的相关凝血指标以降低血栓的发生率。

高性能混凝土三向受压力学性能试验研究

设计了60个不同围压及混凝土强度的高性能混凝土圆柱体试样进行常规三轴受压试验,以研究其在三向应力下的力学性能。结果表明:试件在单、三向受压状态下分别发生纵向劈裂、斜向剪切破坏;试样应力-应变曲线可分为:弹性上升段、塑性上升段、软化下降段。其中,软化下降段比单轴受压状态更平滑,表明延性更高;随着侧向压力的增加,试件弹性模量、峰值应力及峰值应变均显著增大;最后由最小二乘法建立了侧向压力关于峰值应力、峰值应变的计算式。

能力本位教学模式在康复治疗学专业中的应用效果

目的评价能力本位教学模式在康复治疗学专业中的应用效果。方法选取2020年9月—2023年6月潍坊医学院2018、2019级康复治疗学专业的159名学生为研究对象,以不同教学模式分为两组,2018级的80名学生为参照组,2019级的79名学生为观察组,分别实施常规教学模式、能力本位教学模式,对比不同教学模式对学生教学满意度、期末考试成绩及学习效果的影响。结果与参照组相比,观察组学生教学总满意度更高,差异有统计学意义(P<0.05);与参照组相比,观察组期末理论考核成绩及实践技能考核成绩均更高,差异有统计学意义(P均<0.05);与参照组相比,观察组学习兴趣(8.24±1.14)分、表达能力(8.24±1.23)分、自主学习能力(8.32±1.05)分、知识扩展程度(9.02±0.74)分、灵活运用知识(9.03±0.64)分均更高,差异有统计学意义(t=3.124、3.139、2.687、3.280、2.662,P均<0.05)。结论能力本位教学模式有助于提高康复治疗学专业学生教学满意度、期末考试成绩及临床能力,便于其未来到工作岗位上更好地适应临床工作。

高填方粗粒土干湿循环及蠕变特性三轴试验研究

白鹤滩水电站库区蓄水后,其高填方场地将长期经历水位升降,对于场地的变形和稳定来说十分不利。依托于白鹤滩水电站库区移民安置区消落带高填方场地稳定性研究项目,通过大型常规三轴剪切试验和蠕变试验分析了粗粒土在干湿循环作用和饱水条件下的应力应变关系、剪切形态特征、长期强度、变形规律等,得到主要结论如下:①粗粒土的强度随着干湿循环次数的增加逐渐降低;②干湿循环次数n≤3时,粗粒土试样先剪缩后剪胀,n>3时,粗粒土只有剪缩变形;③粗粒土的峰值偏应力随着干湿循环次数的增加逐渐降低,围压越高干湿循环作用对粗粒土抗剪强度损伤劣化的影响越大;④粗粒土的长期强度较剪切破坏强度有所降低,在低围压下降幅较小,一般情况下可达到剪切破坏强度的80%甚至更高,在高围压下由于颗粒破碎严重粗粒土的长期强度损伤较大。

压实黏性土固结排水多级直剪试验

抗剪强度是决定岩土工程中地基、边坡等土体和结构稳定性的重要力学参数,一般通过直剪或三轴试验获取.这类试验常采用3~4个试样测定土的黏聚力和内摩擦角,但多个试样的差异性会影响结果准确性.基于此,在常规直剪仪器的基础上进行改进,使其可针对一个试样反复剪切,获取样品的抗剪强度参数,由Mohr-Coulomb包络线得到土的黏聚力和内摩擦角,并将压实土的固结排水多级直剪试验与常规直剪试验结果进行对比.结果表明,多级直剪试验抗剪强度略小于常规直剪,内摩擦角误差在±2.5°.该固结排水多级直剪方案可以用来评估压实黏性土抗剪强度.

一种简约化GSM-R网络优化方法及系统的研究与实现

对于非列控区段的普速铁路,由于线路等级不高,通常没有配套建设GSM-R无线信号监测设备,也无法直接照搬高速铁路的网络优化及监测系统。为此提出一种简约化的GSM-R网络优化方法和系统解决方案。利用前端感知终端开展线路侧无线信号采集并进行自动化测试,通过公、专融合的网络形式实现路测数据的一键回传;利用后端服务平台建立智能分析系统模型,实现数据的智能融合分析,初步判断并识别铁路沿线无线信号覆盖薄弱区域、GSM-R服务小区异常等情况,自动生成测试报告和网络优化解决方案,并将相关信息传递给线路侧维护人员,以便其及时、精准地进行现场网络优化工作。采用这种智能化、简约化的网络优化方法,符合提质增效、一体化综合维修的建设思路。

脉冲振荡肺功能检查在学龄前儿童哮喘诊断中的价值

目的 探讨脉冲振荡(IOS)肺功能检查在学龄前儿童哮喘诊断中的价值。方法 将96例学龄前哮喘患儿作为研究组,96例健康儿童作为对照组,比较2组IOS肺功能检查参数[总呼吸黏性阻力(R5)、周边气道黏性阻力(R5-R20)、中心气道黏性阻力(R20)、共振频率(Fres)]、常规肺功能指标[用力肺活量(FVC)、呼气峰流速(PEF)、第1秒用力呼气容积(FEV1)]。将研究组患儿按哮喘急性发作程度分为轻度组、中度组、重度组,比较不同病情程度患儿IOS肺功能检查参数、哮喘控制测试(ACT)评分、常规肺功能指标,分析IOS肺功能检查参数与ACT评分、常规肺功能指标的关系。结果 研究组R5、R5-R20、Fres、R20值均显著高于对照组(P<0.001),FVC、PEF、FEV1值均显著低于对照组(P<0.001)。研究组患儿R5、R5-R20、Fres、R20值随着病情的加重而增加,FVC、PEF、FEV1值及ACT评分随着病情的加重而降低,上述指标不同病情患儿之间比较差异均有统计学意义(P<0.001)。IOS肺功能检查参数与ACT评分、常规肺功能指标均呈显著负相关(P<0.05)。结论 IOS肺功能检查参数随学龄前儿童哮喘发生发展而变化,在学龄前儿童哮喘临床诊断及疗效监测中有较高的应用价值。

不同含水率及围压条件下含瓦斯煤能量变化规律

为探究含瓦斯煤变形破坏过程中的能量耗散规律,利用自主研制的煤岩力学性质测试装置,开展含瓦斯煤在不同含水率及围压下的常规三轴试验,基于热力学第一定律,分析含瓦斯煤偏应力-应变曲线不同阶段和特征点处的能量变化规律。结果表明:不同含水率时,围压从12 MPa增大到20 MPa时,对应的弹性能占比增幅分别为60.33%、20.11%和3.86%,弹性能占比、破坏强度和弹性模量均增大,说明围压对含瓦斯煤体的变形破坏具有一定的抑制作用;不同围压时,含水率从1%增加到5%,对应的总能量分别下降25.38%、8.78%和6.23%,总能量、弹性能和破坏强度总体上均减小,导致含瓦斯煤更易破坏。含水率的增大使含瓦斯煤颗粒间摩擦力降低,促进煤颗粒间的相对移动。

不同加载路径下大理岩的强度特征研究

选取锦屏大理岩为研究对象,进行恒定围压下的三轴压缩试验、逐步增加围压的三轴压缩试验以及卸围压的三轴压缩试验,研究大理岩岩样在不同加载路径下的强度演化特征。研究结果表明:在恒定围压下的三轴压缩试验中,环向应力级别每提升5 MPa,试件的强度增大约30%;相对于恒定围压下的三轴压缩试验,逐步增加围压的三轴压缩试验黏聚力增加,内摩擦角降低,而卸围压的三轴压缩试验与之相反;在不同的加载路径中,卸围压的三轴压缩试验最易破坏,而逐步增加围压的三轴压缩试验由于经历太多塑性变形,并不能很好地提升试件的强度。

不同掺量SBS改性沥青黏韧行为研究

SBS具有特殊的软硬链段结构,可在沥青中形成稳定的聚合物三维网络结构,因此,SBS改性沥青具备优异的性能。目前,传统三大指标无法充分评价SBS改性沥青的性能。为此,通过黏度、黏韧性和测力延度等黏弹性试验指标对SBS掺量对沥青性能的影响规律进行研究,并与三大指标试验结果进行对比。结果表明:随着SBS掺量的增加,沥青的三大指标、动力黏度、布氏旋转黏度、车辙因子逐渐增大。6%掺量的SBS对沥青常规性能和高温失效温度的提升最为明显。相比基质沥青,SBS改性沥青的最大拉力值增加且应力松弛时间延长。6%SBS掺量下SBS改性沥青的低温延展性最佳,8%掺量下SBS改性沥青黏韧性能最佳且韧性部分提高最多,增韧效果显著。相关性分析表明,沥青60℃动力黏度对数值、70℃车辙因子对数值与黏韧性指标线性相关性较强。

Loading characteristics of mechanical rib bolts determined through testing and numerical modeling

Underground coal mines use mechanical bolts in addition to other types of bolts to control the rib deformation and to stabilize the yielded coal ribs.Limited research has been conducted to understand the performance of the mechanical bolts in coal ribs.Researchers from the National Institute for Occupational Safety and Health(NIOSH)conducted this work to understand the loading characteristics of mechanical bolts(stiffness and capacity)installed in coal ribs at five underground coal mines.Standard pull-out tests were performed in this study to define the loading characteristics of mechanical rib bolts.Different installation torques were applied to the tested bolts based on the strength of the coal seam.A typical tri-linear load-deformation response for mechanical bolts was obtained from these tests.It was found that the anchorage capacity depended mainly on the coal strength.Guidelines for modeling mechanical bolts have been developed using the tri-linear load-deformation response.The outcome of this research provides essential data for rib support design.

Hemostasis testing in patients with liver dysfunction: Advantages and caveats

Due to concomitant changes in pro-and anti-coagulant mechanisms,patients with liver dysfunction have a“rebalanced hemostasis”,which can easily be tipped toward either a hypo-or a hypercoagulable phenotype.Clinicians are often faced with the question whether patients with chronic liver disease undergoing invasive procedures or surgery and those having active bleeding require correction of the hemostasis abnormalities.Conventional coagulation screening tests,such as the prothrombin time/international normalized ratio and the activated partial thromboplastin time have been demonstrated to have numerous limitations in these patients and do not predict the risk of bleeding prior to high-risk procedures.The introduction of global coagulation assays,such as viscoelastic testing(VET),has been an important step forward in the assessment of the overall hemostasis profile.A growing body of evidence now suggests that the use of VET might be of significant clinical utility to prevent unnecessary infusion of blood products and to improve outcomes in numerous settings.The present review discusses the advantages and caveats of both conventional and global coagulation assays to assess the risk of bleeding in patients with chronic liver disease as well as the current role of transfusion and hemostatic agents to prevent or manage bleeding.