基于微分几何与EDEM的船型开畦沟装置触土曲面优化

针对长江中下游地区油菜种植时土壤黏重板结、含水率波动大、播种作业需开畦沟避免渍害的农艺要求,考虑开沟犁体的触土曲面复杂、难以通过高速数字化土槽及田间试验方法寻求其减阻设计方法和理论依据的问题,采用微分几何理论并结合EDEM仿真方法,开展了驱动圆盘犁对置组合式耕整机开畦沟装置主要触土曲面结构优化研究。通过对主要触土曲面(开畦沟前犁犁体曲面、船式开沟犁整形曲面)牵引阻力分析和曲面参数分析,确定了触土曲面主要结构参数范围。根据微分几何理论,分别建立了能量化描述不同导曲线类型(直线、抛物线、指数曲线)犁体曲面形状变化差异的微分内蕴几何量E、L、M表达式。阻力特性仿真试验结果表明:在作业速度为0. 9～1. 5 m/s、曲面结构参数一定时,导曲线为抛物线型的开畦沟前犁和船式开沟犁具有较好的减阻特性,其平均牵引阻力相比直线型犁体分别低15. 09%、16. 92%,相比指数线型犁体分别低32. 59%、31. 58%。触土曲面的内蕴几何量E、L、M可分别反映犁体阻力随速度的增长速率、犁体牵引阻力大小、犁体阻力随速度的波动程度。当设计犁体的导曲线形状使曲面内蕴几何量E的变化率较小、L为单调减函数、M的波动较小时,犁体具有较好的减阻性能。参数优化仿真试验表明:在作业速度为1. 2 m/s、抛物线型开畦沟前犁宽度为92 mm、船式开沟犁整形曲面最大元线角为66°时,开畦沟装置牵引阻力最小,为1 042. 52 N。田间试验表明:经参数优化的组合式船型开畦沟装置在作业速度为0. 9、1. 2、1. 5 m/s时测试的平均牵引阻力分别为956. 77、1 101. 33、1 564. 85 N,与仿真试验结果误差在7%以内,作业效果满足油菜播种开畦沟的农艺要求。     

翼柱型量水槽水力特性分析与对比

【目的】为探究翼柱型量水槽在自由出流和淹没出流时的量水性能。【方法】试验观测10种流量条件下,量水槽进口到出口13个测流断面的水位,对自由出流和淹没出流两种工况下的水面线、佛汝德数、测流精度等水力参数进行分析与对比。【结果】自由出流状态下在断面11到断面12之间形成了临界流,流量在0.044 m3/s以下时没有产生临界流从而得到了U形渠道翼柱型量水槽的最小工作流量。翼柱型量水槽过槽流量与上游水深具有良好的相关关系,通过拟合得到了自由出流和淹没出流状态下的流量公式,其中自由出流状态下最大误差为-2.54%,淹没出流下为6.50%,二者平均误差均小于0.3%,满足现行渠道量水规范的误差要求。本文拟合的淹没出流流量公式最大淹没度高达0.958,适用范围较大。此外,U形渠道翼柱型量水槽具有较大的自由出流范围,临界淹没度可达0.890。【结论】经试验确定临界流断面位于距进口约为量水槽4倍翼高处。翼柱型量水槽可满足小比降既成渠道的测流要求,进一步解决了量水槽流量公式在淹没出流情况下测流误差较大的问题。     

基于ABAQUS的齿轮动态啮合的非线性分析

为了解决齿轮在动态啮合过程中接触应力计算的问题,通过HyperMesh软件的前处理功能划分全六面体网格,可以减少计算量,然后将网格模型导入ABAQUS中计算,在实际的工程问题中,ABAQUS对解决非线性问题有一定的优势,通过使用ABAQUS软件可以计算齿轮动态啮合问题,计算结果比传统计算公式更准确,且可定量地分析齿轮啮合应变与应力分布情况。     

Effect of subcritical hydrophobicity in a sandy soil on water infiltration and mobile water content

Recent research shows that most soils are more or less water repellent. Already subcritical water repellency may cause incomplete soil wetting and preferential flow. Both processes potentially reduce the residence time of water and solutes in the vadose zone, resulting in an enhanced risk of groundwater contamination. The objective of the present paper is, therefore, to evaluate the impact of reduced soil wettability on the soil water infiltration rate and to investigate the tendency towards preferential flow with the analysis of the immobile water content in the infiltration zone. In november 2002, a field experiment was done in a coniferous forest, 30 km N of Hannover, Germany. Soil hydrophobicity was quantified by measuring the contact angles. The hydraulic conductivity of the podsolic sandy soil was measured depth‐dependent with a double‐ring tension infiltrometer in three soil horizons. To quantify possible preferential‐flow effects, a LiBr‐Tracer was added to the infiltrating water to evaluate the mobile water‐content fraction after infiltration. Additionally, infiltration rates of water were compared with infiltration rates of ethanol which were determined after water infiltration at the same locations. Results show that the actual water repellency of field‐moist soil was mainly subcritical (contact angle <90°). Water infiltration rates were reduced due to subcritical repellency by a factor of 3–170 compared with ethanol infiltration rates (exclusion of wetting effects). This spatially variable infiltration behavior was not clearly reflected neither by the small‐scale contact‐angle measurements nor by the analysis of the average immobile soil water content in the infiltration zone. We conclude that this specific infiltration behavior of water caused by small‐scale wettability effects may temporarily reduce the local connectivity of water‐flow pathways.     

植物叶片润湿性特征的初步研究

植物叶片的润湿性表现了叶片对水的亲和能力,叶片上润湿的一层水膜对植物的光合作用、叶片截流降水有重要的影响.测定了陕西省境内34种植物叶片对水的接触角,初步探讨了叶片润湿性的一些特征.所研究植物叶片正面的接触角为O°～140°,平均85.4°.接触角大于95°不润湿的植物占到测定总数的31.4%;小于85°润湿植物中占到51%以上;而介于润湿与不润湿之间的物种占17.1%.叶片的正面和背面的润湿性具有一定水平的差异.叶面角质与腊质的比例对润湿性有重要的影响.叶片上附属物的多少也会对润湿性产生影响,附属物愈多,润湿性愈差;人为去除附属物可以极大地增加叶片的润湿性能.植物叶片上的气孔和叶脉通过影响叶片的粗糙程度来影响叶片的湿润性.     

ANALYTICAL SOLUTION OF RING SHELL LINING WITH ANNULARLY VERTICAL WALLS MADE CONTACT WITH SURROUNDING ROCK

In this paper,the ring shell lining with annularly verticalwalls made contact with the surrounding rock is considered as a combinationstructure formed of ring shell,inner and outer annular barrels on elastic fo-undation.The complex equation and its solutions of ring shell under deadload of lining and vertical and horizontal surrounding rock pressures are de-rived by the method of complex function.The governing equation and itssolution of the barrels on elastic foundation are also derived by theory ofcylindrical shell.And then,the ring shell lining is assembled by the subst-ructures by means of compatibility conditions of internal forces and defor-mations between them.In the paper,all formulas for the practical computa-tion in engineering are derived,the numerical examples are given and theeffects of the parameters of the lining on the work behaviours of lining alsoare discussed preliminarily     

东方蝼蛄膜翅表面形态与润湿性

利用扫描电镜分析了东方蝼蛄膜翅的表面形态.在OCA20型接触角测量仪上测量了水与东方蝼蛄膜翅展开表面各部位的接触角,分析了东方蝼蛄膜翅表面几何微结构与润湿性的关系.研究表明,东方蝼蛄膜翅展开后各部位的几何微结构各不相同,水与东方蝼蛄膜翅展开表面各部位的接触角平均值为94.4°～118.6°,表现出疏水性能.东方蝼蛄膜翅表面几何微结构与疏水性能的综合作用是其折叠后表面不沾土壤和水的重要机理.     

双质量飞轮内部传动结构强度及疲劳寿命分析

随着初级飞轮与次级飞轮相对转角的变化,分段变刚度双质量飞轮具有不同的刚度特性和非线性变化转矩,双质量飞轮内部传动结构作为传递动力和运动部分,结构可靠性和使用寿命必须保证.将建立的三维CAD模型导入HyperMesh软件中进行有限元分析前处理,建立了有限元分析模型,经过仿真求解计算,分析了结构变形、应力分布特点,对比分析...     

Coupled Thermo-Elastic Contact Finite Element Method and It''s Application in Gearing

A new finite element method is presented in this paper to analyze the thermo- elastic contact problem with heat input on meshing tooth faces. The computational model of meshing gear has been established and the frictional heat input on meshing tooth faces is estimated. In addition, 2-D finite element analysis program for this kind of problem is listed. The test and practical examples are given to show the validity and versatility of this method.     

微粗糙表面混合接触边界膜影响分析

研究了由微粗糙表面与光滑平面形成的混合接触承载性能.混合接触由固体-边界膜-固体三体接触和固体-流体固体三体接触组成.两表面相对滑动时表面间形成许多个微阶梯轴承.这些微阶梯轴承的承载量之和构成两接触表面承载量.微阶梯轴承的入口区为传统流体区域,出口区为边界膜区域.给出了微阶梯轴承承载能力分析方法,研究了边界膜对混合接触承载能力和接触性能的影响.