Effects of Super Absorbent Polymers on Yield and Water-saving and Drought-escaping Mechanism in Spring Maize

The effects of super absorbent polymers （SAP） on yield as well as water-saving and drought-escaping mechanism in spring maize in the seasonal drought region were studied. As shown by the results, during the seasonal drought in southern China, SAP treatment promoted the soil moisture, improved the capability of absorption and transportation of roots, promoted physiological and biochemical functions, increased the chlorophyll content, photosynthetic rate and intercellular CO2 concentration, and reduced the stomatal conductance and transplre.tion rate. As a result, the economic characters of spring maize were improved, and the yield was increased.

Large Deformation Analysis and Synthesis of Elastic Closed-loop Mechanism Made of a Certain Spring Wire Described by Free Curves

Recently novel mechanisms with compact size and without many mechanical elements such as bearing are strongly required for medical devices such as surgical operation devices. This paper describes analysis and synthesis of elastic link mechanisms of a single spring beam which can be manufactured by NC coiling machines. These mechanisms are expected as disposable micro forceps. Smooth Curvature Model（SCM） with 3rd order Legendre polynomial curvature functions is applied to calculate large deformation of a curved cantilever beam by taking account of the balance between external and internal elastic forces and moments. SCM is then extended to analyze large deformation of a closed-loop curved elastic beam which is composed of multiple free curved beams. A closed-loop elastic link is divided into two free curved cantilever beams each of which is assumed as serially connected free curved cantilever beams described with SCM. The sets of coefficients of Legendre polynomials of SCM in all free curved cantilever beams are determined by taking account of the force and moment balance at connecting point where external input force is applied. The sets of coefficients of Legendre polynomials of a nonleaded closed-loop elastic link are optimized to design a link mechanism which can generate specified output motion due to input force applied at the assumed dividing point. For example, two planar micro grippers with a single pulling input force are analyzed and designed. The elastic deformation analyzed with proposed method agrees very well with that calculated with FEM. The designed micro gripper can generate the desired pinching motion. The proposed method can contribute to design compact and simple elastic mechanisms without high calculation costs.

Spring-Joint Method for Topology Optimization of Planar Passive Compliant Mechanisms

There is seldom approach developed for the initial topology design of flexure-based compliant mechanisms. The most commonly-used approaches, which start with an existing rigid-body mechanism, do not consider the performances between different topologies. Moreover, they rely heavily on the rigid-body topology, therefore limit the diversity of compliant mechanisms topology. To obtain the optimal initial topology of such mechanisms directly from problem specifications without referencing to the existing mechanism topologies, a spring-joint method is presented for a restricted class of the serial passive flexure-based compliant mechanisms, which are the building blocks of parallel compliant mechanisms. The topology of the compliant mechanisms is represented by a serial spring-joint mechanism（SSJM） that is a traditional rigid-body mechanism with a torsional spring acting on each joint, and is described by position vectors of the spring-joints. A simplified compliance matrix, determined by the position vectors, is used to characterize the tip of the SSJM kinematically, and is optimized to ensure the desired freedoms of the compliant mechanisms during optimization. The topology optimization problem is formulated as finding out the optimal position of the spring-joints in a blank design domain with an objective function derived from the simplified compliance matrix. In design examples, syntheses of the compliant mechanisms with both single freedom and two decoupled freedoms are presented to illustrate the proposed method. The proposed method provides a new way for the initial design of flexure-based compliant mechanisms.

Product Development of High Strength and Toughness Spring Flat Steel

With the continuous development of mechanical industry,higher requirements are put forward for the comprehensive properties of spring steel.The chemical composition and production process of spring flat steel are designed to meet the requirements of high strength and high toughness of spring flat steel,through the test,the product surface quality and internal quality all meet the national standards,the performance indicators to meet user requirements.

INVESTIGATION INTO EFFECT OF SPRING PRESSURE ON PERFORMANCE OF BALANCED MECHANICAL SEALS

The loads acting on the sealing elements of balanced mechanical seals are analyzed. When the balance factor approaches the back pressure factor, the spring pressure will become main part of the face pressure. The leakage model of balanced mechanical seals is established on the base of M-B model for rough surface. Several GY-70 type balanced mechanical seals are tested. The influences of the spring pressure both on the leakage rate and on the friction characteristic of balanced mechanical seals are investigated. The research results indicate that as spring pressure increases, both the clear-ance between two end faces and the leakage rate will decrease, and the friction will be more serious because lubrication medium between the rotating ring and the stationary ring reduces, though the increase of the spring pressure may not be enough to change the face friction state of mechanical seals. There exists an optimum spring pressure for mechanical seal operation. Under this spring pres-sure, not only leakage rate is small, but also the seal end surfaces have a fine friction characteristic. Under different operating conditions, identical type mechanical seals may possess different spring pressure. Appropriate selection of spring pressure is valuable to realize long-period and small leakage rate operating of balanced mechanical seals.

Torsional negative stiffness mechanism by thin strips

Negative stiffness mechanisms have great application potential in different fields, such as vibration isolation, energy absorption and mesh antenna unfolding. Although numerous compliant mechanisms with negative stiffness features have been implemented in literature, the designing work remains in its infancy, and proposing an original design strategy may open a new avenue for the future inventions. In this study, inspired by a toy, we developed a novel type of compliant mechanism composed of thin strips, possessing negative stiffness property under torsion. The negative stiffness feature is achieved by large deformation of the strips rather than mechanical buckling. As a consequence, the obtained negative stiffness segment covers a significantly long range. Demonstrated with examples, it was shown that the proposed mechanisms could be combined with other compliant mechanisms to realize long-range unusual torque-angle relationships, which can be used in different applications.

Relationship between microstructures and mechanical properties of resistance spot welded joint of spring steel

Based on mechanical properties tests and microstructures investigations, the relationship between microstructures and mechanical properties of resistance spot welded joints of spring steel is studied. The agglomeration of precipitated carbide is the sign that indicates spot welded joints structure of spring steel is fully tempered. Spot welded joints microstructure of nickelplaied spring steel is fully tempered in random tempering heat treatment process, and mechanical properties of the welded joints are advanced. This research results showed a new approach for increasing spot welded joints quality of spring steel and hardened steel.

A Position and Orientation Compensation Mechanism for Automatic Docking Device of Launch Rocket

A position and orientation compensation mechanism for the automatic docking device of a launch rocketwas established.The docking process was simulated,and the maximum docking deviation was used for the prototype testing of the compensation mechanism.The compensation mechanism mainly comprises four column pairmotion branch chains with the same structure.When the position of the ground connector panel changes relative to the moving platform,the sliding rods in the four motion branch chains move and rotate to either compress or stretch the connected spring,thereby compensating the position and orientation.First,the dynamic simulation model of the compensation mechanism was established.The docking process was then simulated under the maximum docking deviation.Bench testing of the automatic docking device prototype was carried out.Afterwards,the device was manufactured,and a maximum load test and maximum deviation test were carried out.The results demonstrate that the compensation mechanism meets the design requirements,and the spring stiffness was found as the most important factor in determining the mechanical properties of the system.The proposed compensation mechanism has a number of advantages,including a simple structure,large load bearing capacity,small size,simple installation,and adjustment.

A New Thread Guide Mechanism of Rubbed Roving Frame

A new thread guide mechanism of a rubbed roving frame is developed, which consists mainly of a plate cam, a linkage and an air bag spring. Characteristics and design parameters of the air spring are explored in this study. Based on analyses of winding technology for this kind of package, the kinetic laws of the thread guide is put forward. General design equations of the cam profile are derived, and common kinetic laws of II linkage group which is used for such mechanism design is proposed. It proves theoretically that it is practicable. The experimental results indicate that it can meet the needs of technological demands, and the new thread guide mechanism has been used successfully on textile machines.

基于Spring Boot框架的医院“双通道”处方流转系统设计与实现

目的:设计医院“双通道”处方流转系统,解决患者需到零售药店自费购买谈判药品的问题。方法:该系统采用浏览器/服务器(Browser/Server,B/S)架构,使用前后端分离的模式进行开发,以Oracle 10g作为数据库,通过SM4算法进行数据加密。其中前端采用Vue.js框架搭建,使用Element UI构建用户界面,通过AJAX调用后端的RESTful接口并使用JS对象简谱(JavaScript objection notation,JSON)进行数据交互;后端使用Spring Boot和MyBatis框架搭建。整个系统主要由就诊开方、处方详情查询、处方撤销3个功能模块组成。结果:经实际应用,该系统可实现医生按照赋予的权限开具药品处方、药师前置审方后自动上传至医保电子处方平台,患者可以直接去定点药店取药和结算,而且整个过程可追溯,达到了预期目标。结论:该系统能够满足参保患者的合理用药需求,确保患者及时合理地使用进入医保目录的谈判药品。

Elasticity Forces in Tourism Under Covid-19:The Model of the Imaginary Mechanical Tourist Spring

The forces of contraction and expansion about the seasons in tourism behave like an imaginary mechanical tourist spring.The article discusses tourist activities in Bulgaria from 2009 to 2020,predictions concerning Covid-19,and tendencies expected in the last quarter of 2021 till the end of 2022 on data published by the National Statistics Institute and Eurostat.The system’s dynamics observed before the pandemic crisis in tourism resembles the action of a mechanical spring that shrinks and extends,and we can empirically analyze the process of tourism activities.The study of this elasticity process of the system allows establishing a model with positive characteristics of the dynamics and further dealing with problems,better clarity in analysis and modeling of prognosis based on the potential of an imaginary mechanical spring concerning the possibility of the tourist destination.

源流耦合:乡村公共文化治理中合作生产的生成机制——基于乡村春晚的案例分析

“身有所栖”而“心无所寄”现象是乡村治理工作中的突出问题,以需求回应性和农民主体性为特征的合作生产成为解决上述问题的关键模式。通过对乡村春晚案例的研究发现,乡村公共文化治理中合作生产的生成是由在特定时刻汇合在一起的多种因素共同作用的结果,即文化源流推动下文化之窗打开,通过文化源流、行政源流和乡土源流的两两局部耦合开启行政之窗和乡土之窗,在此基础上建立起政府与农民之间的资源依赖关系,实现三者的全部耦合开启合作之窗,进而在领导注意力分配的驱动下生成。乡村公共文化合作生产生成机制为理解中国情境下的乡村治理和乡村振兴提供了新的视角。

轨道交通锥型橡胶弹簧力学性能试验设计及研究

针对轨道交通锥型橡胶弹簧刚度和疲劳试验,分析橡胶弹簧结构及试验标准,设计新型的橡胶弹簧垂向性能、横向性能和疲劳试验方案,研究疲劳次数对垂向刚度、压缩高、横向刚度的影响以及不同压缩载荷对不同橡胶层应变的影响。结果表明:试验设计满足试验要求,1000万次疲劳试验后,该结构橡胶弹簧垂向刚度减小2.5%、压缩高下降2.56%、横向刚度减小6.7%;垂向分别加载16 kN和28.5 kN工况下,橡胶弹簧第1层和第2层橡胶的应变值基本一致,达到等应变设计目的。

间隔织物双剑杆织机平行打纬机构箱体的振动分析

针对双剑杆织机共轭凸轮与四连杆组合的平行打纬机构箱体随着织机转速的提高产生强烈振动,影响打纬精度和可靠性的问题,采用理论分析与虚拟仿真结合的方法对打纬机构及箱体进行动应力和振动特性研究。建立了平行打纬机构的动态静力分析方程,运用ADAMS软件对机构进行多体动力学仿真,求解箱体所受的支反力;构建箱体—弹簧阻尼—柔性基础的系统模型,分析箱体在竖直方向的受迫振动,并在仿真过程中探索减小箱体振动的方法。研究结果表明:摆臂轴孔处箱体所受支反力峰值最大,打纬推程阶段箱体的受力最为集中;当凸轮轴转速为260 r/min时齿轮啮合频率与箱体一阶固有频率相等,会产生共振,应避免使用这一转速工作;箱体在竖直方向上产生周期性振动,增加螺栓个数和附加动力减震器有助于改善箱体的振动特性,振幅分别减少38%和23%。

窄腔内倒扣产品多次顺序抽芯注塑模设计

针对塑件正面窄腔内5个倒扣、背面2个窄腔内环形倒扣、四周侧17个倒扣,背面7个倒扣的结构难点,创新提出了隧道楔紧块、滑块运动方向与侧型芯垂直的吊挂侧型芯式抽芯方法,实现窄腔内倒扣抽芯。设计了4类抽芯机构,通过4次顺序抽芯成功实现窄腔内复杂倒扣产品的脱模。第一次抽芯解决正面窄腔内5个倒扣抽芯难题,由顺序定距分型机构控制抽芯顺序;第二次抽芯解决四周侧17个倒扣抽芯难题;第三次抽芯解决背面7个倒扣抽芯难题;第四次抽芯解决背面2个窄腔内环形倒扣抽芯难题,创新设计了弹簧式快速二次推出机构控制抽芯顺序。经试模验证,该模具结构合理、工作可靠。

基于电机电流的高压断路器弹簧操作机构的LM-BP故障诊断算法

BP(back propagation)神经网络由于具有线性映射能力强及自适应能力强等优点,常被用于高压断路器弹簧操作机构的故障诊断中,但易陷入局部最小点限制了网络的收敛速度和分类精确度。文中提出了一种基于L-M算法优化BP神经网络的高压断路器操作机构故障诊断方法,分析了神经网络的数学模型及映射关系,运用L-M算法对传统BP网络进行优化,解决了传统BP神经网络梯度下降法存在局部最小化、易产生平坦区等问题,有效地提高了算法的训练速度,同时提高了分类的精确度。诊断结果表明:L-M算法优化后的BP神经网络能有效地实现高压断路器操作机构故障诊断。文中研究内容对高压断路器操作机构故障诊断提供了思路与方法,对提高高压断路器安全可靠性具有重要意义。

天津市2018—2020年春节PM_(2.5)中水溶性无机离子特征及重污染过程分析

为阐明大气污染重点整治和新冠疫情影响下我国华北地区城市春节期间重污染过程PM_(2.5)中水溶性无机离子变化特征及其影响因素,本研究结合气态前体物浓度和气象要素,对天津市2018—2020年连续3年春节假期的2次重污染过程PM_(2.5)中主要水溶性无机离子(WSIIs)浓度进行对比分析.结果表明,2018年和2020年春节假期PM_(2.5)平均浓度(98.32μg·m^(-3)和137.7μg·m^(-3))显著高于2019年(49.97μg·m^(-3)).PM_(2.5)平均浓度在污染期Ⅱ(2020年为206.5μg·m^(-3))是污染期Ⅰ(2018年98.32μg·m^(-3))的2.1倍;2次污染事件中NO_(2)浓度变化不大,而SO_(2)浓度在污染期Ⅱ(14.89μg·m^(-3))是污染期Ⅰ(30.04μg·m^(-3))的49.6%.SNA在WSIIs中占比超过77%,主要以NH_(4)NO_(3)、(NH_(4))_(2)SO_(4)形式存在,其中NH_(4)NO_(3)为最主要的无机盐,且污染期Ⅱ的NH_(4)NO_(3)浓度远高于污染期Ⅰ.此外,污染期Ⅱ的PM_(2.5)/CO、SOR、NOR均明显升高,表明更有效的SO_(4)^(2-)和NO_(3)^(-)形成过程是导致污染期Ⅱ中PM_(2.5)浓度偏高的主要原因之一.不利的边界层高度、相对湿度、风速等气象要素形成静稳、强逆温天气,导致大气环境容量减小,并使得污染期Ⅱ的二次无机气溶胶生成效率大幅提高,进而削弱了疫情效应与减排措施的影响.而污染期Ⅰ除了二次转化外,PM_(2.5)浓度可能更多受到区域传输等影响.

富氢环境下镍钛形状记忆合金弹簧变形行为的实验和理论研究

镍钛形状记忆合金器件在某些特定服役环境下不可避免地与氢接触,导致其力学性能发生改变.实验研究方面,通过对两种构型(弹簧指数为8.5和11.7)的镍钛合金弹簧进行异位电解充氢,随后对充氢和未充氢镍钛合金弹簧进行不同幅值的拉伸-卸载实验,揭示了氢对超弹性镍钛合金弹簧变形行为的影响.结果表明,氢会显著影响弹簧的相变硬化行为,并且使马氏体相变临界力下降地更为迅速.理论研究方面,基于实验结果,在不可逆热力学框架下构建了镍钛形状记忆合金力-扩散耦合本构模型.在该本构模型中,考虑了与弹性,马氏体相变和氢致膨胀相关的应变和氢浓度场对马氏体相变的影响.通过建立的Helmholtz自由能推导出相变行为的热力学驱动力.基于质量守恒定律和Fick定律,得到氢浓度场的演化方程.为了准确地描述充氢和未充氢镍钛合金弹簧的变形行为,在建立的本构模型基础上,进一步发展了描述弹簧力-扩散耦合变形行为并考虑其扭转、弯曲变形模式的半解析模型.通过与实验结果的对比,可以发现,提出的半解析理论模型能够很好地预测富氢环境下超弹性镍钛合金弹簧的变形行为.

基于键合图法的履带车油气弹簧阻尼阀特性分析

为优化车辆悬挂的阻尼特性,基于功率键合图法建立油气悬挂阻尼阀阻尼特性的参数化模型。针对阻尼阀压缩行程开阀前、开阀后和复原行程下不同工作模式,分析不同工作状态下阻尼阀的节流形式,结合流体力学知识建立阻尼阀压缩和复原行程的阻尼特性模型。通过模型仿真研究结构参数对阻尼阀特性的影响。设计流量试验台对阻尼阀特性仿真结果进行验证。研究结果表明,基于功率键合图法建立的阻尼阀特性模型可以准确地计算出阻尼阀的特性,减小单向阀芯上通孔2和通孔3的直径可以降低悬挂阻尼阀开阀点速度,调整通孔1和通孔4的直径可以在不影响开阀速度的条件下相应调整阻尼力,通孔6的直径只对复原行程的阻尼力产生影响。

波浪滑翔器弹簧水翼机构三维效应的分析与研究

为了评估波浪滑翔器弹簧水翼机构在波浪中三维效应对其动力学性能的影响,本文基于重叠网格技术建立波浪滑翔器弹簧水翼机构的数值计算模型,并利用CFD FLUENT软件对二维和三维水翼之间的动力学性能进行分析与研究。结果表明,由于三维水翼展长有限,在翼端处产生梢涡现象,造成水翼动力性能减小,与二维水翼相比,三维水翼的前向推进效率减少22.3%。接着,利用仿生学原理设计波浪滑翔器仿生水翼,发现仿生水翼降低了梢涡对水翼动力性能的损失,同时对比相同展弦比的三维水翼,仿生水翼的前向推力提高了17.6%,效率提高了10.7%。最后,通过实验对比发现CFD仿真数据与试验数据具有相同的趋势,CFD仿真模型的可靠度得到验证。