Mass-front velocity of dry granular flows influenced by the angle of the slope to the runout plane and particle size gradation

The mass-front velocities of granular flows results from the joint action of particle size gradations and the underlying surfaces.However,because of the complexity of friction during flow movement,details such as the slope-toe impedance effects and momentum-transfer mechanisms have not been completely explained by theoretical analyses,numerical simulations,or field investigations.To study the mass-front velocity of dry granular flows influenced by the angle of the slope to the runout plane and particle size gradations we conducted model experiments that recorded the motion of rapid and long-runout rockslides or avalanches.Flume tests were conducted using slope angles of 25°,35°,45°,and 55° and three particle size gradations.The resulting mass-front motions consisted of three stages:acceleration,velocity maintenance,and deceleration.The existing methods of velocity prediction could not explain the slowing effect of the slope toe or the momentum-transfer steady velocity stage.When the slope angle increased from 25° to 55°,the mass-front velocities dropped significantly to between 44.4% and59.6% of the peak velocities and energy lossesincreased from 69.1% to 83.7% of the initial,respectively.The velocity maintenance stages occurred after the slope-toe and mass-front velocity fluctuations.During this stage,travel distances increased as the angles increased,but the average velocity was greatest at 45°.At a slope angle of 45°,as the median particle size increased,energy loss around the slope toe decreased,the efficiency of momentum transfer increased,and the distance of the velocity maintenance stage increased.We presented an improved average velocity formula for granular flow and a geometrical model of the energy along the flow line.

An optical glass plane angle measuring system with photoelectric autocollimator

Optical glass is the most widely used optical material.It is necessary to measure its geometric characteristic quickly and reliably to meet the quality of optical glass.A vision measuring system combining photoelectric autocollimation system with high-precision rotary stage is designed to measure the parallelismand angle of optical glass plane.A novel method is proposed to overcome the difficulty ofmeasuring parallelismof optical glass.The model of parallelism and angle measurement is established and the feasibility is analyzed.The image processing algorithm combining Steger algorithm with the least square method is selected.The uncertainty of angle measurement system for angle measurement is 3.0″.The system can solve the problem of measuring the angle of optical glass with high precision and has important significance for optical system.

Different angle-resolved polarization configurations of Raman spectroscopy: A case on the basal and edge plane of two-dimensional materials

Angle-resolved polarized Raman（ARPR） spectroscopy can be utilized to assign the Raman modes based on crystal symmetry and Raman selection rules and also to characterize the crystallographic orientation of anisotropic materials.However, polarized Raman measurements can be implemented by several different configurations and thus lead to different results. In this work, we systematically analyze three typical polarization configurations： 1） to change the polarization of the incident laser, 2） to rotate the sample, and 3） to set a half-wave plate in the common optical path of incident laser and scattered Raman signal to simultaneously vary their polarization directions. We provide a general approach of polarization analysis on the Raman intensity under the three polarization configurations and demonstrate that the latter two cases are equivalent to each other. Because the basal plane of highly ordered pyrolytic graphite（HOPG） exhibits isotropic feature and its edge plane is highly anisotropic, HOPG can be treated as a modelling system to study ARPR spectroscopy of twodimensional materials on their basal and edge planes. Therefore, we verify the ARPR behaviors of HOPG on its basal and edge planes at three different polarization configurations. The orientation direction of HOPG edge plane can be accurately determined by the angle-resolved polarization-dependent G mode intensity without rotating sample, which shows potential application for orientation determination of other anisotropic and vertically standing two-dimensional materials and other materials.

Research on the Novel Mode of Plane Graphic Design from the Angle of Visual Language Transmitting

In this paper, we conduct research on the novel mode of plane graphic design from the core angle of the primary visual language transmitting. Relationship between nationality and cosmopolitan processing in graphic design in the design of image symbol expression and significance of the symbol on the one hand require symbolic form must have enough openness and the cognitive function on the other hand with semiotics method can let the designer to extract the most representative and symbolic notation style to carry on the design expression. As a non- verbal symbols, from the perspective of the view, the design image is no national boundaries, but the human form to beauty and should express the symbolism of cognition is the same. In the form of the ethnic groups of the cosmopolitan codes are for identification of Chinese contemporary design possible effective methods. Our research proposes novel perspective of the design which is meaningful.

View on the Clinical Value of QRS-T Angle

The QRS-T angle,as an index of noninvasive cardioelectric vector,is closely related to the change of heart structure and function.There are different methedologies to measure the QRS-T angle,which can be roughly dividedinto two types:plane angle and space angle.Studies show that the influence factors include two aspects of physiology and pathology of the angle,in pathological ways,the disease such as myocardial hypertrophy,myocardial ischemia,hypertension,ventricular arrhythmia has larger clinical significance.In recent years,the research on the risk stratification of the QRS-T angle on sudden death has made great progress,but there are still some disputes about whether the space angle can be replaced by the plane angle and the range of normal value and so on.

短口外弓配合固定矫治器治疗AngleⅡ类Ⅰ分类高角病例

目的 研究短外弓在安氏Ⅱ类Ⅰ分类高角错病例治疗中的作用。方法 选择到广西医科大学附属口腔医院正畸科治疗的病人 1 1例 ,均过生长发育高峰期 ,使用短外弓配合固定矫治器进行治疗 ,疗程 1 5个月 ,拍摄治疗前后头颅侧位片进行分析 ,并对治疗前后的变化进行配对t检验。结果 上颌骨长度和高度没有明显变化 ,下颌平面角FMA变化在Ⅰ°以内 ,上切牙和下颌磨牙伸长。

Projections,Birkhoff Orthogonality and Angles in Normed Spaces

Let X be a Minkowski plane, i.e., a real two dimensional normed linear space. We use projections to give a definition of the angle Aq（x, y） between two vectors x and y in X, such that x is Birkhoff orthogonal to y if and only if Aq（x,y）=π/2. Some other properties of this angle are also discussed.

Optimum Design of Highway Excavation Slope Angle: Evidence from Dawu Section of Jingzhu Highway

The optimum design of the highway excavation slope angle is one of the most important problems to the highway construction and to the slope improvement. The Dawu Section of Jingzhu (Beijing Zhuhai) Highway is taken as an example to illustrate the study method for excavation slope angle design. The analysis of the engineering condition from different angles with different factors shows that the stability of the slope is calculated by using residual pushing force and the Sarma method. Then the sensitive analysis of the slope stability is conducted by using residual pushing force method. Finally, the optimum angle of design is presented on the precondition of ensuring the whole stability of slope and the economic reasonability. The study results show that the most sensitive factors are the shear strength parameter and the seismic force, and that the optimum excavation slope angle is 60°.

冠心病合并高血压患者心电图平面QRS-T夹角及血清心肌缺血总负荷与心肌缺血的相关性分析

目的观察冠心病合并高血压患者心电图平面QRS-T夹角及血清心肌缺血总负荷(TIB)与心肌缺血的相关性。方法回顾性分析2019年1月至2023年1月合肥市第三人民医院期间收治的80例冠心病合并高血压患者的临床资料,根据其心肌缺血情况分为非心肌缺血组(n=20)和心肌缺血组(n=60)。选择同期在本院检查为冠状动脉造影阴性的50例患者纳入对照组,对比3组受试者的平面QRS-T夹角和TIB。另根据80例冠心病合并高血压患者的平面QRS-T夹角将其分为平面QRS-T夹角<50°组(n=18)、50°≤平面QRS-T夹角≤100°组(n=40)、平面QRS-T夹角>100°组(n=22)。对比3组受试者的房(室)性期前收缩、室上性心动过速、室性心动过速发生率,并分析平面QRS-T夹角和TIB之间的相关性。采用多因素Logistic模型分析平面QRS-T夹角、TIB对冠心病合并高血压发生心肌缺血的影响。绘制受试者工作特征(ROC)曲线预测平面QRS-T夹角、TIB在冠心病合并高血压心肌缺血的价值。结果非心肌缺血组的平面QRS-T夹角、TIB分别为(79.58±8.24)°、(26.84±4.26)mm/min,心肌缺血组的平面QRS-T夹角、TIB分别为(106.58±10.34)°、(84.58±7.84)mm/min,均高于对照组[(40.25±6.58)°、(0.66±0.08)mm/min],且心肌缺血组平面QRS-T夹角、TIB均高于非心肌缺血组,差异均有统计学意义(P<0.05)。与平面QRS-T夹角<50°组(11.11%)、50°≤平面QRS-T夹角≤100°组(10.00%)比较,平面QRS-T夹角>100°组(40.91%)室性心动过速发生率均较高,差异均有统计学意义(P<0.05)。经双变量Spearman相关性检验,平面QRS-T夹角与TIB呈正相关性(r=0.716,P<0.001)。多因素Logistic回归分析结果显示平面QRS-T夹角、TIB均是冠心病合并高血压患者引发心肌缺血的独立危险因素(P<0.05)。平面QRS-T夹角、TIB在冠心病合并高血压心肌缺血预测中曲线下面积(AUC)分别为0.941、0.934,灵敏度分别为95.00%、96.67%,特异度分别为80.00%、90.00%。结论冠心病合并高血压患者的心肌缺血情况可能与平面QRS-T夹角和TIB密切相关,且其灵敏度、特异度均较高,预测的准确性较高。

慢性心力衰竭患者心电平面QRS-T夹角、心率变异性与心肌重构的关系分析

目的分析慢性心力衰竭患者心电平面QRS-T夹角、心率变异性与心肌重构的关系。方法回顾性选取于2017年1月至2022年1月南通市海门区人民医院期间收治的慢性心力衰竭患者共计100例作为观察组,选取同期进行体检的健康人群共计50例作为对照组。两组均行常规心电图、24 h动态心电图和超声心动图检查,比较两组心电平面QRS-T夹角及心率变异性、心肌重构指标,分析心电平面QRS-T夹角、心率变异性与心肌重构的关系。结果观察组心电平面QRS-T夹角为(104.65±11.46)°,大于对照组[(45.54±3.53)°],差异有统计学意义(P<0.05)。观察组各项心率变异性指标SDNN、SDANN、SDNNI、RMSSD、PNN50为(101.52±17.48)ms、(59.45±11.43)ms、(83.23±12.55)ms、(101.45±26.09)ms、(10.55±2.90)%,均低于对照组[(139.28±20.43)ms、(83.27±15.34)ms、(92.44±15.98)ms、(121.54±30.26)ms、(18.95±3.21)%],差异均有统计学意义(P<0.05)。观察组左心室间隔厚度(IVST)、左心室后壁厚度(LVPWT)、左心室质量指数(LVMI)为(10.27±1.91)mm、(9.77±0.74)mm、(141.46±9.47)g/m^(2),均高于对照组[(6.84±0.69)mm、(6.52±0.48)mm、(109.91±5.20)g/m^(2)],差异均有统计学意义(P<0.05)。Pearson相关性检验显示,QRS-T夹角与心肌重构各指标(IVET、LVPWT、LVMI)均呈正相关(P<0.05),心率变异性各指标(SDNN、SDANN、SDNNI、RMSSD、PNN50)与心肌重构各指标(IVET、LVPWT、LVMI)均呈负相关(P<0.05)。结论慢性心力衰竭患者存在心肌重构现象,而QRS-T夹角和心率变异性与心肌重构具有一定的相关性,临床可通过测量该两项指标来反映心肌损伤情况。

The Possibility of Angle Trisection （A Compass-Straightedge Construction） Kimuya M Alex

The objective of this paper is to provide a provable solution of the ancient Greek problem of trisecting an arbitrary angle employing only compass and straightedge （ruler）. （Pierre Laurent Wantzel, 1837） obscurely presented a proof based on ideas from Galois field showing that, the solution of angle trisection corresponds to solution of the cubic equation; x3 - 3x - 1 = 0, which is geometrically irreducible [1]. The focus of this work is to show the possibility to solve the trisection of an angle by correcting some flawed methods meant for general construction of angles, and exemplify why the stated trisection impossible proof is not geometrically valid. The revealed proof is based on a concept from the Archimedes proposition of straightedge construction [2, 3].

Rowe剪胀方程及一种新的推导方法

剪胀性是岩土材料的重要特性之一。Rowe剪胀方程是一种经典的剪胀方程,它形式简单,所需假定较少,能够反映粗粒土、岩石乃至混凝土的剪胀性。在国内外受到广泛关注,且有很多的改进和发展。但在通常的Rowe剪胀方程的推导中,有一些概念尚需要商榷,所引入的锯齿面也容易引起误导。本文对Rowe剪胀方程及其发展改进进行梳理,提出了参考面的概念,并给出了一种新的推导方法。新的推导方法比传统方法在概念上更为严密,对两种推导方法的探讨也有助于加深对Rowe剪胀方程的理解。

分布式驱动车辆直接横摆力矩与转向控制

为了进一步提高车辆在转向行驶过程中的横向稳定性,针对分布式驱动电动汽车,提出了一种在分层集成架构下利用相平面法确定稳定区域控制车辆运动状态稳定的控制策略。由二自由度模型得到的理想侧向速度、理想横摆角速度与实际差值作为上层控制器输入值,上层控制器采用双滑膜控制器结构分别对理想侧向速度和理想横摆角速度进行追踪,分别得到控制量附加转角和附加横摆力矩;下层控制器主要依据相平面法得到的边界值协调控制转向控制和横摆力矩控制的输入输出值,通过最优分配算法将轮胎力和转向角分配到四轮,最终实现对车辆稳定性控制。对控制算法进行仿真验证,证明了所提控制策略的有效性和可行性。

基于投影光瞳分布的星地激光通信波前探测

为了解决星地自由空间光学通信系统中的提前角问题,采用了一种基于光强传输的新型波前探测技术——投影光瞳面分布(Projected Pupil Plane Pattern,PPPP),并通过实验室实验验证了该技术的可行性。PPPP基于TIE光强传输公式,根据不同传输距离下光强分布的变化反解出大气湍流引起的波前畸变。由于PPPP采用的是上行通信激光本身的后向瑞利散射,其测量的大气湍流方向与通信卫星方向一致,因此可以有效解决星地激光通信中的提前角问题。实验模拟了1 m口径的地基望远镜作为上行激光发射装置和后向散射光斑成像设备,通过等效高度分别为10 km和17 km的上行激光后向散射光斑图像来实现对10 km以下大气湍流的波前探测。实验采用的波前畸变模拟装置包括空间光调制器和透明塑料片,实验结果表明,对不同的波前畸变PPPP和通用的夏克-哈特曼波前探测器可以实现相似的波前重构,两者重构相位的残差约为初始相位的30%。

基于真三轴卸载试验不同倾角组合煤岩力学特性研究

为深入研究煤炭开采过程中顶板结构面倾角对煤岩力学特性的影响,通过自主研发的地声过程模拟试验系统,开展不同结构面倾角条件下组合煤岩真三轴加卸载试验,并利用声发射探测系统进行监测。研究结果表明:随着结构面倾角的增大,试样的破坏强度逐步下降,裂隙发展也逐渐减弱,其破坏形态从张拉剪切破坏逐渐向剪切破坏转变,直至倾角达到40°时,试样整体发生滑移破坏;在卸载破坏前,倾角<30°的试样发生充分的塑性变形,其承载力得到充分发挥,而倾角≥30°的试样达到临界破坏极限时迅速破坏,出现部分或完全滑移破坏;声发射信号集中于卸载破坏阶段,试样的结构面倾角越大,声发射累计计数越少,当倾角达到40°时发生滑移破坏,最大振铃计数大幅下降,对其累计计数略有影响。研究成果可为深入认识顶板结构面倾角引起的卸载破坏机制及矿山安全开采提供参考。

A general method for silo classification using rupture plane

A new method is presented for silo classification using the rupture plane in the storage. The proposed method is based on the formula of rupture plane orientation determined by the aspect ratio of specified silos and involves the effects of the conical angle of the storage surface, so it can deal with two cases： the conical angle of the storage surface and the flat storage surface. Compared with the two popular methods based on the silo-aspect ratio and the silo rupture plane, respectively, in current engineering design, the new method can give a range of critical aspect ratios to classify deep silos and squat silos according to the conical angle of the storage surface or the fiat storage surface. Moreover, the range covers the critical aspect ratios obtained from the existing classification methods including the Chinese code based on silo aspect ratios, the German code, Reimbert brothers＇ definition and Liang et al. ＇s definition, so it is a more general method to classify silos and the existing methods can be viewed as special cases of the presented method.

双髋关节MRI预测股骨头坏死塌陷风险

背景:MRI是诊断股骨头坏死的金标准,以往基于MRI图像预测股骨头坏死塌陷的方法多需要冠状面、矢状面图像联合评估。然而由于股骨头坏死好发于双侧,临床上大多医院检查时多行双侧髋关节MRI扫描,但双髋扫描仅可查看冠状面及横断面图像,难以获取矢状面图像,从而影响塌陷风险的评估。因此,建立一种应用双髋MRI可获取的图像评估早期股骨头坏死塌陷风险的方法有一定的临床实用价值。目的:建立一种应用双髋关节MRI冠状面与横断面图像评估股骨头坏死塌陷风险的方法。方法:回顾性分析2017年10月至2019年10月在西安交通大学附属红会医院门诊确诊的早期股骨头坏死患者111例(181髋)的病历资料。根据末次随访时股骨头塌陷情况分为2组,其中塌陷组69髋,未塌陷组112髋。在MRI影像系统上测量正中冠状面、横断面或其上下各一个层面图像上的坏死范围角度,以冠状面、横断面上坏死角两角之和作为联合坏死角,并取每髋3种联合坏死角的平均值得到每髋的平均联合坏死角。最后,分析3种联合坏死角及平均联合坏死角与股骨头坏死塌陷的相关性,利用受试者工作特征曲线评价4种联合坏死角预测塌陷的特异性与敏感性。结果与结论:①末次随访69髋(38.1%)发生股骨头塌陷,纳入塌陷组;112髋(61.9%)未发生塌陷进展,纳入非塌陷组;②塌陷组与未塌陷组在ARCO分期方面比较差异有显著性意义(P<0.001);在年龄、体质量指数、随访时间、性别分布、发病侧别、致病因素等方面比较差异均无显著性意义(P>0.05);③独立样本t检验结果提示,4种联合坏死角均与塌陷显著相关(P<0.0001);且ARCOⅠ期、Ⅱ期中塌陷组与未塌陷组患者的联合坏死角相比差异均有显著性意义(P<0.0001);④在受试者工作特征分析中,平均联合坏死角曲线下面积大于正中下一层面、正中层面、正中上一层面上的联合坏死角;⑤平均联合坏死角塌陷预测准确度高于正中下一层面、正中层面、正中上一层面上的联合坏死角;⑥提示平均联合坏死角对股骨头坏死塌陷风险的预测精准度较高,临床实用性较强,可考虑使用该方法对股骨头坏死塌陷风险进行预测。

Sub-pixel extraction of laser stripeand itsapplication in laser plane calibration

For calibrating the laser plane to implement 3D shape measurement, an algorithm for extracting the laser stripe with sub-pixel accuracy is proposed. The proposed algorithm mainly consists of two stages： two-side edge detection and center line extraction. First, the two-side edge of laser stripe is detected using the principal component angle-based progressive probabilistic Hough transform and its width is calculated through the distance between these two edges. Secondly, the center line of laser strip is extracted with 2D Taylor expansion at a sub-pixel level and the laser plane is calibrated with the 3D reconstructed coordinates from the extracted 2D sub-pixel ones. Experimental results demonstrate that the proposed method can not only extract the laser stripe at a high speed, nearly average 78 ms/frame, but also calibrate the coplanar laser stripes at a low error, limited to 0.3 mm. The proposed algorithm can satisfy the system requirement of two-side edge detection and center line extraction, and rapid speed, high precision, as well as strong anti-jamming.

微克飞行器MEMS气动控制微系统

针对微克飞行器对毫米级的控制系统的需求,借助MEMS技术,提出一种微型化的气动控制系统。借助蠕动电极可累积作用效果的特点,使控制系统在力与体积之间达到良好的平衡,达到在小体积内获得高驱动力的目标,通过理论分析和尺寸优化完成结构的设计,并进行有限元仿真分析。仿真结果表示,最终设计的微系统面积为22 mm×12 mm,可以产生433 mN的驱动力,可使控制面实现偏转角在12°范围内的角度调控。

机织角联锁变密度复合材料的面外压缩力学特性

为研究变密度结构设计对三维机织角联锁复合材料面外力学性能的影响,设计制备了三维机织角联锁不变密度复合材料、三维机织角联锁经纱变密度复合材料和三维机织角联锁纬纱变密度复合材料。结合扫描电子显微镜、数字图像相关技术和X射线计算机断层扫描等检测技术,对角联锁变密度复合材料的面外压缩力学行为、内部损伤量化和渐进损伤等进行了测试与表征。研究结果表明:上疏下密角联锁纬纱变密度复合材料展现出优异的压缩性能,其压缩比强度比不变密度复合材料高3.40%;同时,上疏下密角联锁纬纱变密度复合材料损伤体积仅为11.64 mm 3,远低于不变密度复合材料的26.90 mm 3。进一步分析得到,不变密度复合材料压缩破坏以剪切失效为主,而上疏下密角联锁纬纱变密度复合材料则为基体开裂。