TOPOLOGY AND VORTEX STRUCTURES OF A CURVING TURBINE CASCADE WITH TIP CLEARANCE (Ⅰ)- EXPERIMENTAL MODEL AND TOPOLOGICAL FLOW PATTERNS ON BOTH ENDWALLS AND BLADE SURFACES

By means of ink trace visualization of the flows in conventional straight, positively curved and negatively curved cascades with tip clearance, and measurement of the aerodynamic parameters in the transverse section, and by appling topology theory, the structures on both endwalls and blade surfaces were analyzed. Compared with conventional straight cascade, blade positive curving eliminates the separation line of the upper passage vortex and leads the secondary vortex to change from close separation to open separation, while blade negative curving effects merely the positions of singular points and the intensities and scales of vortex.

TOPOLOGY AND VORTEX STRUCTURES OF A CURVING TURBINE CASCADE WITH TIP CLEARANCE (Ⅱ)- TOPOLOGICAL FLOW PATTERN AND VORTEX STRUCTURE IN THE TRANSVERSE SECTION OF A BLADE CASCADE

By means of ink trace visualization of the flows in conventional straight, positively curved and negatively curved cascades with tip clearance, and measurement of the aerodynamic parameters in transverse section, and by appling topology theory, the topological structures and vortex structure in the transverse section of a blade cascade were analyzed. Compared with conventional straight cascade, blade positive curving eliminates the separation line of the upper passage vortex, and leads the secondary vortex to change from close separation to open separation, while blade negative curving effects merely the positions of singular points and the intensities and scales of vortex.

叶顶间隙对多级轴流压气机性能退化的影响

以某F级燃机压气机为研究对象,考虑燃机实际运行过程中腐蚀和磨损作用导致的压气机叶顶间隙变化,通过三维数值模拟方法开展了不同腐蚀/磨损状态下多级轴流压气机的性能退化机理研究,分析了叶顶间隙变化对多级轴流压气机性能的影响规律。结果表明:叶顶间隙增大会导致压气机特性曲线整体向质量流量减小的方向偏移,使得压气机的质量流量、效率及压比均产生一定程度的衰退;随着叶顶间隙的增大,压气机峰值效率逐渐降低,喘振裕度明显降低;叶顶间隙增大会导致压气机通道内的流动分离加剧,动叶叶顶间隙变化对压气机流动分离的影响更严重;静叶吸力面尾缘附近的流动分离导致形成低马赫数区,同时逆流的低速涡团导致叶根附近的损失显著增大,造成压气机性能衰退。

一种基于TIP技术的场景重建和漫游方法

基于图像的建模和绘制方法与基于传统的几何绘制方法相比有很多优点。但是,在场景几何未知的情况下,要实现单幅图片和图像序列的漫游,难度很大。TIP技术使得在一幅图像中漫游成为可能,但它采用的平面建模方法有很大的局限性。本文在对TIP技术扩展的基础上提出了一种曲面建模的方法。该方法减少了TIP技术的限制,扩展了其适应性。实验结果表明,本文提出的算法是有效的,具有实际应用价值。

温度对SF_(6)/CF_(4)混合气体尖板放电特性的影响

气体绝缘电气设备使用SF_(6)/CF_(4)混合气体可以避免SF_(6)气体液化,适合在极寒地区应用。为获得设备内部存在尖端放电缺陷时SF_(6)/CF_(4)混合气体的绝缘性能受温度的影响,采用尖板电极模拟缺陷尖端放电,开展SF_(6)/CF_(4)混合气体在0.1~0.7 MPa气压范围和-50~20℃温度范围的工频放电实验。结果表明,不同温度下SF_(6)/CF_(4)混合气体的击穿电压随气压升高均出现先升高—再降低—再升高的驼峰趋势;但随着温度降低,驼峰峰值处的击穿电压随温度降低出现降低趋势,而在非驼峰峰值处的击穿电压随温度降低而基本不变。通过分析温度对电晕空间电荷的影响,解释了SF_(6)/CF_(4)混合气体的击穿电压在不同气压下受温度的影响机制。

汉代刘贺服饰形象整体设计研究——《海昏侯马蹄金、麟趾金·前世传奇》

《海昏侯马蹄金、麟趾金·前世今生》作为中央广播电视总台大型文博探索节目《国家宝藏》第四季第三期,走进江西省博物馆板块的重要内容之一,讲述了西汉元康四年刘贺就任海昏侯后的一段故事。因此,如何根据剧中人物身份、时间设定及礼仪要求,还原刘贺的服饰风貌,成为节目创作中的一个重要议题。刘贺的服饰形象设计受其诸侯王身份地位、西汉早中期楚风服饰风尚以及剧中立春礼仪等综合因素的影响。参照汉代舆服制度和文献资料,对应墓葬陶俑、画卷等图像遗存,结合汉墓出土的服饰实物,对刘贺的服饰形制、面料、色彩、纹样等方面进行了具体考据。刘贺服装形制主要为曲裾深衣、禅衣;服装面料为罗、锦以及素纱等高级丝质品类;纹样为菱纹罗纹样与夔龙纹锦;首服远游冠,足踏歧头履等。通过本次设计研究,希冀还原以刘贺为代表的西汉贵族男子服饰风貌,传承中华民族优秀传统服饰文化的同时,也为后续节目人物服饰形象设计提供参考。

某氦气涡轮弯叶片设计方法研究

氦气涡轮高负荷、低展弦比的特点,导致端区损失占总损失的比例较高,尤其是动叶端区损失径向发展尺度较大,甚至会堵塞主流流动。为优化某氦气涡轮气动性能和主流流动,采用数值模拟方法对动叶进行弯曲设计研究,分别对比了正弯、反弯、反J型设计方法,研究结果表明:此氦气涡轮采用反J型设计效果最佳,反弯其次,正弯最差。50%弯高、20°弯角的反J型设计为最佳设计点,不仅提高了涡轮级效率,优化了主流流动,增强了做功能力,而且有着更好的变工况特性,尤其在流量为1.5 kg/s的低工况点,效率较原设计提高2.3个百分点。

Review on cochlear implant electrode array tip fold-over and scalar deviation

Objective: Determine the occurrence rate of cochlear implant (CI) electrode tip fold-over and electrode scalar deviation as reported in patient cases with different commercial electrode types. Data-sources: PubMed search for identifying peer-reviewed articles published till 2018 on CI electrode tip fold-over and scalar deviation. Key-words for searching were “Cochlear electrode tip fold-over”,“Cochlear electrode scalar position” and “Cochlear electrode scalar location”. Articles-selection: Only if electrode related issues were investigated in patient cases. 38 articles met the inclusion-criteria. Results: 13 articles on electrode tip fold-over issue covering 3177 implanted ears, out of which 50 ears were identified with electrode tip fold-over with an occurrence rate of 1.57%. Out of 50 ears, 43 were implanted with pre-curved electrodes and the remaining 7 with lateral-wall electrodes. One article reported on both tip fold-over and scalar deviation. 26 articles reported on the electrode scalar deviation covering an overall number of 2046 ears out of which, 458 were identified with electrode scalar deviation at a rate of 22.38%. After removing the studies that did not report on the number of electrodes per electrode type, it was 1324 ears implanted with pre-curved electrode and 507 ears with lateral-wall electrode. Out of 1324 pre-curved electrode implanted ears, 424 were reported with scalar deviation making an occurrence rate of 32%. Out of 507 lateral-wall electrode implanted ears, 43 were associated with scalar deviation at an occurrence rate of 6.7%. Conclusion: This literature review revealing the fact of higher rate of electrode insertion trauma associated with pre-curved electrode type irrespective of CI brand is one step closer to obsolete it from the clinical practice in the interest of patient's cochlear health.

基桩竖向加载极限承载力现场试验研究

基桩极限承载力判定是工程界研究的热点和难点。为掌握加载过程中桩侧及桩端阻力的分布和位移变化规律,在同一试桩进行了两次现场原型桩静力试桩试验,研究了静载试验的Q-s曲线、轴力及端阻的承载机理、变形及破坏特征,结果表明:(1)加载方法、试验先后顺序及加载量级对基桩的承载特性和变形具有明显的影响;(2)在极限承载力附近减小每级加载量,缓变形Q-s曲线的基桩在首次破坏时,桩端会发生一个突然向下的脉冲式反弹,呈倒“V”字型,其尖点的前一级荷载可以作为该桩的极限承载力。研究成果对工程桩的设计和检测具有重要指导意义。

Highly sensitive and stable probe refractometer based on configurable plasmonic resonance with nano-modified fiber core

A dispersion model is developed to provide a generic tool for configuring plasmonic resonance spectral characteristics.The customized design of the resonance curve aiming at specific detection requirements can be achieved.According to the model,a probe-type nano-modified fiber optic configurable plasmonic resonance(NMF-CPR)sensor with tip hot spot enhancement is demonstrated for the measurement of the refractive index in the range of 1.3332-1.3432 corresponding to the low-concentration biomarker solution.The new-type sensing structure avoids excessive broadening and redshift of the resonance dip,which provides more possibilities for the surface modification of other functional nanomaterials.The tip hot spots in nanogaps between the Au layer and Au nanostars(AuNSs),the tip electric field enhancement of AuNSs,and the high carrier mobility of the WSe_(2)layer synergistically and significantly enhance the sensitivity of the sensor.Ex-perimental results show that the sensitivity and the figure of merit of the tip hot spot enhanced fiber NMF-CPR sensor can achieve up to 2995.70 nm/RIU and 25.04 RIU^(−1),respectively,which are 1.68 times and 1.29 times higher than those of the conventional fiber plasmonic resonance sensor.The results achieve good agreements with numerical simulations,demonstrate a better level compared to similar reported studies,and verify the correctness of the dispersion model.The detection resolution of the sensor reaches up to 2.00×10^(−5)RIU,which is obviously higher than that of the conventional side-polished fiber plasmonic resonance sensor.This indicates a high detection accuracy of the sensor.The dense Au layer effectively prevents the intermediate nanomaterials from shedding and chemical degradation,which enables the sensor with high stability.Furthermore,the terminal reflective sensing structure can be used as a practical probe and can allow a more convenient operation.

砂卵石层串珠状溶洞地质条件下大直径单桩水平静载试验及数值仿真分析

砂卵石和串珠溶洞地质条件下的桥梁桩基水平承载力和变形机理研究目前并不充分。为合理确定该地质条件下无铰拱桥桩基水平承载力,开展了现场水平静载试验,分析了该类地质条件下桩基水平承载力的合理值,为类似工程提供参考。并运用GTS有限元软件开展了数值模拟,建模以修正摩尔库伦模型模拟砂卵石层,并在桩土之间设置Goodman接触单元,在桩端设置桩端单元。同时假定串珠状溶洞为椭球状分布,为防止计算出现不收敛的情况,对空腔内部进行特殊处理,采用统一理论模拟钢护筒和筒内混凝土。在此基础上,分析了桩顶受荷时H-Y曲线和H-ΔY0/ΔH曲线,并将数值结果与实测结果进行了对比。结果表明,在合理运用本构模型和土工参数情况下,有限元数值仿真结果与现场试验结果吻合度较高,有限元软件可以作为确定这种特殊地质条件下桩基水平承载力的有力技术手段,为确定单桩水平承载力提供新思路。

基于ANSYS的齿根过渡曲线形状优化研究

渐开线齿轮齿根过渡曲线是影响齿根弯曲应力的重要因素。为提高齿轮的弯曲强度,采用有理二次贝齐尔(Bezier)曲线来描述刀顶曲线,运用ANSYS内嵌的一阶优化方法,以内权因子w1为设计变量、最大Von Mises应力为目标函数直接优化滚刀刀顶曲线来优化齿根过渡曲线,并通过30°切线法验证了优化结果的准确性,得出了齿根最大弯曲应力、刀顶曲线和齿根过渡曲线形状随内权因子w1的变化曲线。结果表明:w1=0.12时,齿根弯曲应力降低12.2%,仍能获得光滑的齿根过渡曲线和光滑的滚刀刀顶曲线。

具有叶顶间隙的涡轮正弯叶栅流场的拓扑与旋涡结构

为进一步揭示在具有间隙的涡轮叶栅中叶片正弯降低泄漏损失的机理，采用微型束状与球头五孔测针详细测量了直叶栅和正弯叶栅间隙内和诸横截面流场中的气动参数，并对壁面（包括上、下端壁和叶片表面）进行了墨迹显示。根据测量与显示结果，应用拓扑学原理分析了壁面与横截面流动的拓扑结构，推测出叶栅内流场的旋涡结构。分析结果表明，在直叶栅中存在着七条分离线与七大集中涡系，它们分别为上端壁叶顶进口吸力边与压力边马蹄涡、泄漏涡、二次涡、下端壁进口边马蹄涡和上、下通道涡。与直叶栅比较，叶片正弯明显减少了壁面与横截面流场中奇点的数量，消除了上通道涡，并使叶顶吸力边的二次涡分离流动由闭式分离转变为开式分离。

对转压气机叶尖间隙效应对其性能影响的研究

为了进一步了解对转压气机中不同转子叶尖间隙改变对其性能的影响,以对转压气机为对象,基于数值方法研究了该压气机不同转子对应的叶尖间隙效应及其性能的变化。结果表明:随着叶尖间隙的增加,压气机总压比和效率均有所下降;两排转子的峰值效率敏感度曲线与间隙大小均近似呈线性关系,且转子R2对应的峰值效率和喘振裕度随叶尖间隙的变化较R1更加敏感。该对转压气机存在最佳间隙组合,即转子R1和R2分别取叶尖间隙为1.0τ和0.5τ(τ代表设计间隙),此时的峰值效率和喘振裕度较设计间隙分别提高约0.62%和6.9%;转子叶尖间隙的增加会使得相应转子叶尖泄漏涡的起始位置后移,两排转子中一个转子叶尖间隙变化时会对另一个转子的叶尖流动产生影响,且转子R2叶尖间隙的增加对转子R1的影响更加显著;两排转子叶尖间隙的变化均会影响该对转压气机的最先失速级。

雷州桉树枝梢弯曲生理病与微肥施用效果研究初报

浅海沉积物和花岗岩发育的砖红壤，连续种枪桉树后，有些桉树品种出现的枝梢弯曲生理病与缺乏微量元素有关，施用微肥能防止枝梢弯曲生理病的发生，或对枝梢弯曲生理病有抑制和矫正作用，从而改善桉树中长状况，提高桉树生长量，使桉树能够持续速生丰产。

SiO2胶体探针的制备及其在表面力测定中的应用

采用一种新方法——双向三维移动平台法制备胶体探针,该方法使用两个三维移动平台,同时将CCD与长工作距离显微镜集成,组成视频监视系统来监控探针的整个制备过程,方便了操作。利用此自组装装置制备的二氧化硅胶体探针在原子力显微镜上进行力曲线测量,将分析数据与Ducker的经典论文进行对照,得到较为理想的结果。

冷循环射频消融治疗后肝癌患者调节性T细胞变化及其对预后的影响

目的探讨冷循环射频消融(RFA)治疗对肝癌(HCC)患者调节性T细胞(Treg)变化及其对预后的影响。方法流式细胞仪检测冷循环RFA治疗前,治疗后1、4、7和12个月后外周血Treg的变化。随访期间采用超声造影或肝脏增强CT评估疗效。采用受试者工作特征(ROC)曲线及Kaplan-Meier生存函数的方法分析Treg动态变化与肿瘤无进展生存期的关系。结果 RFA术后1个月,30例患者肿瘤缓解(TR)率93.3%(28/30),肿瘤进展(TP)率6.67%(2/30)。RFA术前Treg(9.42±1.16)%,术后1个月(6.55±0.97)%,较术前显著下降(t=15.325,P<0.01)。经12个月随访,TR率33.3%(10/30),TP率66.7%(20/30)。TR组术前Treg为(8.75±0.72)%,显著低于TP组(9.76±1.20)%(t=-2.448,P=0.021)。ROC曲线表明Treg谷值以4.82%为最佳临界值时,灵敏度为90.0%,特异度为60.0%;Treg达谷时间以5.5个月为最佳临界值,灵敏度为70.0%,特异度为85.0%。采用Kaplan-Meier曲线分析表明,肝癌RFA术后Treg谷值≤4.82%的肿瘤无进展生存率优于Treg谷值>4.82%的患者;Treg达谷时间≥5.5个月的患者预后优于Treg达谷时间<5.5个月的患者,Log-rank检验分别为χ2=5.207,P=0.023;χ2=22.079,P<0.01。结论冷循环RFA可以下调Treg水平,并且Treg谷值及Treg达谷时间在一定程度上反映RFA治疗HCC患者的预后。

叶片正弯对间隙流动的影响

详细测量了常规直叶片与正弯叶片栅间隙内与上、下游流场，比较两套叶栅的实验结果发现：叶片正弯减小了叶顶后3／5轴向弦长范围内的横向压力梯度，并消除了上通道涡，因而大大削弱了泄漏流与瑞壁横流之间的相互干扰，相对漏气量与叶栅流动损失都显著降低．

基于高弯曲强度的齿轮过渡曲线分析

齿根过渡曲线是影响齿轮弯曲强度的重要因素。为了提高齿轮弯曲强度,延长齿轮的工作寿命,从齿轮根部过渡曲线的加工刀具设计入手,分别考虑圆角刀顶、单圆弧刀顶、双圆弧刀顶,建立齿轮过渡曲线成形方程,确定齿轮根部强度敏感部位和应力集中系数的关系模型,探究齿轮不同过渡曲线对齿轮弯曲强度的影响,用有限元法对理论分析计算的结果进行验证。研究表明:使用双圆弧刀顶的刀具加工出的齿轮,其齿根弯曲强度比普通齿轮的齿根弯曲强度有很大提高,为高弯曲强度齿轮设计提供理论依据。

无触角滚刀刀顶圆角半径的最佳选择

渐开线齿轮齿根过渡曲线是影响齿根弯曲应力的重要因素,该过渡曲线由滚刀刀顶圆角展成。为提高齿轮弯曲强度,采用不同半径的圆弧描述该圆角,并推导了最佳圆角半径的计算公式。运用ANSYS的APDL语言对不同半径圆角滚刀加工的齿轮进行了参数化有限元建模,并通过ANSYS/FE-SAFE软件对特定载荷下齿根弯曲疲劳进行了分析。结果表明,选择最佳的圆角半径可使齿根应力减小4.9%,弯曲强度提高43%。