Structure of miniature components from steel produced by forming in semi-solid state

To obtain new unconventional structures with specific mechanical and physical properties is possible not only by the development of new types of materials but also by treatment of conventional materials using unconventional innovative technological procedures.One of these technologies is the forming in semi-solid state involving rapid solidification of miniature components from steels.Production of such components is complicated by a number of technical problems.To explain phenomena of the process and structure development,the production of miniature components from the tool steel X210Cr12 difficult to form was experimentally tested.The structure of this originally ledeburite steel consisted of 95 % of metastable austenite after the treatment.Metastable austenite was located particularly in globular and polygonal grains while the remaining interspaces were filled by lamellar network.The detected high stability of extremely high fraction of metastable austenite was tested under different conditions of thermal exposition and mechanical loading.

Isothermal grain growth of reactive spray formed 7075 alloys in semi-solid state

The grain growth behavior in reactive spray formed 7075+2.91 vol percent TiCAl alloy was studied and compared with that of spray formed 7075 Al alloy at semi-solid state. Theeffects of in-situ TiC particles on the microstructure of spray formed 7075 Al alloy were alsoinvestigated. The specimens were heat-treated isothermally at various temperatures between thesolidus and liquidus of 7075 Al alloy for times in the range of 10-60 min, then quenched in water.The microstructure of reheated specimens was characterized using scanning electron microscopy andoptical microscopy. The grain size was measured using a mean linear intercept method. Results showthat the in-situ TiC particles can effectively retard grain growth and refine the grain at a limitedsize. The grain growth exponent in Arrhenius equation increases from 2 to 3, which indicates thatthe in-situ TiC particles have the significant pinning effect on grain coarsening in the semi-solidstate.

GREUNEISEN FORM OF STATE EQUATION OF WOODS

In this paper the wood was regarded as the thermodynamie system. Using solid theory of crystalline state and thermodynamic theory, based on the expression of wood thermal capacity theory, the basic thermodynamic function of wood was derived. This paper emphasized the state equation of wood, brought it into Greuneisen form and comparcd the thcorctical value with the experimental value. And the relative error was in about 5%. This indicatcd that the results of the theoretical studies were right, explored a new way on the quantitative study of the physical characters of wood.

Model-Following Designs Using Direct State Derivative Measurement Feedback in Novel Reciprocal State Space Form

The paper introduces effective and straightforward algorithms of both explicit and implicit model-following designs with state derivative measurement feedback in novel reciprocal state space form (RSS) to handle state derivative related performance output and state related performance output design cases. Applying proposed algorithms, no integrators are required. Consequently, implementation is simple and low-cost. Simulation has also been carried out to verify the proposed algorithms. Since acceleration can only be modeled as state derivative in state space form and micro-accelerometer which is the state derivative sensor is getting more and more attentions in many microelectromechanical and nanoelectromechanical systems (MEMS/NEMS) applications, the proposed algorithms are suitable for MEMS/NEMS systems installed with micro-accelerometers.

Dynamics of Quantum State and Effective Hamiltonian with Vector Differential Form of Motion Method

Effective Hamiltonians in periodically driven systems have received widespread attention for realization of novel quantum phases, non-equilibrium phase transition, and Majorana mode. Recently, the study of effective Hamiltonian using various methods has gained great interest. We consider a vector differential equation of motion to derive the effective Hamiltonian for any periodically driven two-level system, and the dynamics of the spin vector are an evolution under the Bloch sphere. Here, we investigate the properties of this equation and show that a sudden change of the effective Hamiltonian is expected. Furthermore, we present several exact relations, whose expressions are independent of the different starting points. Moreover, we deduce the effective Hamiltonian from the high-frequency limit, which approximately equals the results in previous studies. Our results show that the vector differential equation of motion is not affected by a convergence problem, and thus, can be used to numerically investigate the effective models in any periodic modulating system. Finally, we anticipate that the proposed method can be applied to experimental platforms that require time-periodic modulation, such as ultracold atoms and optical lattices.

论经济法中的国家主体

经济法中的国家主体,具有不同于政府等主体的特殊性。基于经济宪法和经济法的相关规定,国家主体在经济法中具有独立地位,其经济职能的履行和经济职权的行使,应受经济宪法和经济法的约束,以体现国家理性的要求。此外,经济法中的国家主体在总体上是“现代国家”“经济国家”,并在经济法的各个部门法中具体体现为预算国家、税收国家、债务国家、规制国家等多种国家形态。研究经济法中的国家主体,应结合国家目的或国家目标、国家任务、国家职能、国家理性或国家理由等影响因素,分析具体的国家形态,由此有助于审视法律规定背后的法治原理和法治问题,揭示经济法制度中国家主体存续和发展的内在逻辑,并在法治框架下解决国家调制行为的合宪性、合法性问题,切实保障市场主体的合法权益。依循上述研究路径,有助于提炼经济法中的国家理论或国家主体理论,深化经济法学主体理论乃至整体总论的研究,推动经济法治和国家治理体系的完善。

Shape formation of closed-cell aluminum foam in solid–liquid–gas coexisting state

The mold pressing process was applied to investigate the formability of closed-cell aluminum foam in solid–liquid–gas coexisting state.Results show that the shape formation of closed-cell aluminum foam in the solid–liquid–gas coexisting state was realized through cell wall deformation and cell movement caused by primary α-Al grains that slid,rotated,deformed,and ripened within cell walls.During formation,characteristic parameters of closed-cell aluminum foam were almost unchanged.Under proper forming conditions,shaped products of closed-cell aluminum foam could be fabricated through mold pressing.

面向一统的都城规划——再论隋大兴的空间形制建构及其历史意义

隋大兴是在一统全国过程中规划建设的新都城。其营建不仅在于都城空间本身,也包括以都城为核心面向整个疆域的一系列空间建构。本文分析了中国古代“大一统”思想的发展演变以及隋大兴的建设背景,认为隋初围绕大兴城在疆域范围、近畿区域、都城形态三个层面的一系列空间建构是中国古代“大一统”思想与全国一统进程实际需要相结合的空间政治实践,呼应了当时的军事、政治、经济、文化等需求,丰富和发展了“大一统”理念在都城规划中的表达,提高了都城在国家秩序建构和国家认同形成方面的作用,推动了隋唐“大一统”时代的形成和巩固。

Mg-Gd-Y-Zn-Zr合金碎屑固相再生工艺研究

通过热压烧结以及挤剪复合成形工艺对Mg-7Gd-4Y-2Zn-0.4Zr合金碎屑进行固相再生。在碎屑中添加体积分数5%、7%和9%的SiC颗粒,研究了SiC颗粒含量对固相再生坯料微观组织和力学性能的影响。结果表明,热压烧结后坯料中的界面明显,O元素在烧结界面富集。此外,微观组织中存在大块SiC颗粒,不同试样的塑性均较差。相比于其它试样,SiC体积分数7%的热烧结试样的综合性能最优,其抗拉强度为232 MPa,伸长率为1.76%。挤剪复合成形后,微观组织中的烧结界面消失,平均晶粒尺寸细化至10μm。此外,原本团聚分布的SiC颗粒均匀、弥散地分布在合金内部。SiC体积分数5%的固相再生坯料具有较优的综合力学性能,其抗拉强度为269 MPa,伸长率为12.2%,相比于固溶态合金分别提升了24.5%和62.7%。

构网型并网逆变器状态空间建模及稳定性分析

随着“双碳”目标的提出与逐步实施,作为新能源发电单元接入电力网络的重要接口元件的并网逆变器稳定性问题凸显。目前,电网大部分采用跟网型并网逆变器,然而弱电网中跟网型并网逆变器与锁相环、电网间存在耦合,严重影响系统稳定性。构网型并网逆变器在弱电网中较跟网型并网逆变器表现出更强的适应性,但现阶段构网型并网逆变器状态空间模型的相关论述较少,基于状态空间模型的构网型并网逆变器稳定性分析也不够深入。针对这一空缺,首先详细呈现构网型并网逆变器状态空间建模的相关细节,包括功率控制环、电压控制环、时滞环节和LCL滤波环节;然后,复现构网型并网逆变器失稳现象,并基于所提模型开展参与因子分析,验证模型有效性;其次,基于模型对构网型并网逆变器主要环节参数变化引起的失稳问题进行分析;最后,在Matlab/Simulink中搭建改进的IEEE 4节点三相平衡电网系统进行仿真,进一步验证模型有效性和实用性。

弱电网下多源构网型变流器协同控制方法

虚拟同步发电机(virtual synchronous generator,VSG)作为构网型控制的主要技术之一,可为电网提供惯量支撑,但由于变流器单机容量有限,当系统需要更大的惯量支撑时,需要多VSG并联运行,因此多VSG并联的协同控制备受关注。基于此,建立了VSG多机并联的状态空间模型,通过状态变量矩阵的特征值分析系统稳定性。同时,提出了基于模型预测控制(model predictive control,MPC)的多VSG并联协同控制策略,引入角频率差与功角差作为性能指标设计目标函数,求解所需最佳有功额定增量,通过功频系数对输出角频率进行动态修正,实现对输出频率的主动支撑,有效抑制了VSG并联造成的系统频率波动,提高了电网的稳定性。结果表明,相较于传统的VSG并联系统,所提出的MPC-VSG并联控制方法可缩短系统暂态响应时间,提高系统在暂态下的鲁棒性。仿真结果验证了该方法的有效性。

吉林省东南部白山市金英金矿床金赋存状态及流体包裹体特征

金英金矿床位于中朝准地台北缘东段,铁岭—靖宇隆起与太子河—浑江陷褶断束接触界面凹陷侧。通过野外实际调查、矿相学、电子探针和流体包裹体测试综合研究发现:该矿床矿物组成简单,矿石类型为硅化构造角砾岩型,金矿物种类有自然金、含银自然金和银金矿,载金矿物主要为石英,主要以裂隙金形式赋存,其次以粒间金和包裹金形式赋存;石英中包裹体多为气液两相包裹体,形态以椭圆形、菱形和不规则形为主,成矿温度139.6℃~253.1℃,盐度1.74%~4.65%,密度0.79~0.94 g/cm^(3),成矿压力33.6~65.6 MPa,成矿深度1.2~2.4 km,属中低温低盐度低密度流体。

非匹配负载固态平板Blumlein线的初步设计与输出性能研究

为满足强流介质壁加速器对高倍压比脉冲形成线的研制需求,设计了一种非匹配负载平板固态脉冲形成线(Blumlein线)。首先使用电磁仿真程序研究了平板Blumlein线各参数对输出脉冲宽度的影响,设计并研制了4种形成线进行实验验证;其次利用仿真与实验结合,分析了层叠Blumlein线输出性能下降的主要原因,并提出解决方法;最后对多级Blumlein线的输出性能进行了仿真研究。结果表明:薄平板形成线在非匹配负载工作状态下的耦合作用影响显著,是导致层叠Blumlein线输出性能下降的主要原因;采用对向堆叠结构可有效降低耦合作用、提高波形质量,对向堆叠的20级层叠Blumlein线在1 V输入下可输出峰值33 V、脉宽154 ns的长脉冲,平均倍压比大于1.6,波动±3%的平顶占比37.3%。多级Blumlein线的仿真结果表明,设计的S型平板Blumlein线在多级叠加下具有较好的非匹配负载输出性能,可满足强流介质壁加速器的需求。

河南洛阳农田土壤中硒锌的有效态与形态关系及影响因素

农田土壤中元素的形态和有效态是评价元素活动性的重要指标。不同研究者利用有效态来代表哪几种形态大多是引用文献,两者之间的关系缺少专门的研究资料参考,影响了土地质量评价的精准度。本文按照国家相关分析标准,采用电感耦合等离子体质谱法(ICP-MS)等分析方法对河南洛阳市农田土壤Se高背景区土壤中Se、Zn的有效态和不同形态进行分析,采用含量对比、相关性分析、回归分析等统计方法以及地质背景分析进行研究。结果表明,农田土壤中有效态Zn的平均含量为3.63mg/kg,高于(水溶态+离子态+碳酸盐态)Zn的平均含量2.74mg/kg,远高于(水溶态+离子态)Zn的平均含量0.42mg/kg。有效态Zn可以用水溶态、离子态、碳酸盐态Zn之和代表。在玄武岩区发育的农田土壤中有效态Zn含量为0.023mg/kg,与水溶态Zn含量0.027mg/kg相当,具有低活性特征。种植小麦的农田土壤中有效态Se平均含量为0.019mg/kg,水溶态、离子态、碳酸盐态Se含量之和平均值为0.019mg/kg,Se的有效态可以用水溶态、离子态、碳酸盐态之和代替。种植玉米、谷子、芝麻、花生、红薯的农田土壤中,有效态Se平均含量分别为0.006mg/kg、0.007mg/kg、0.007mg/kg、0.009mg/kg、0.007mg/kg。水溶态、离子态Se之和的平均含量分别为0.009mg/kg、0.010mg/kg、0.013mg/kg、0.007mg/kg、0.010mg/kg,这些农作物种植的土壤中Se的有效态可以用水溶态、离子态之和代替。农田土壤中Se、Zn的有效态及形态主要受全量的影响,同时受种植农作物、p H和有机质的影响。对于农田土壤,利用形态代替有效态进行Se、Zn的有效性评价时,需要结合农业种植、土壤理化性质等因素进行考虑。

基于统计CSI的空中智能反射面辅助大规模MIMO系统传输优化方案

智能反射面(IRS,intelligent reflecting surface)被认为是下一代移动通信的核心技术,其在增强网络覆盖、频谱效率、能源效率和部署成本方面具有显著优势。空中智能反射面(AIRS,aerial intelligent reflecting surface)结合了空中平台的高移动性和智能反射面提供的优质链路特性,可以有效解决复杂通信场景中基站与用户之间易受障碍物阻挡的问题,从而增强网络覆盖。针对AIRS辅助的多用户大规模多输入多输出(MIMO,multiple input multiple output)系统,研究了基站波束成形、AIRS部署位置与相移设计的联合优化问题。在已知统计信道状态信息(CSI,channel state information)的条件下,提出了一种基于块坐标下降(BCD,block coordinate descent)的系统遍历和速率优化方案。首先,建立了一个联合优化基站端波束成形、AIRS的部署位置与AIRS相移的复杂优化模型。其次,通过BCD算法,将非凸优化问题解耦成3个易于处理的子问题。最后,分别采用拉格朗日乘子法、松弛变量法和RMSProp梯度下降算法求解子问题。仿真结果表明,所提出的优化方案有效地提高了系统的遍历和速率,并且具有较好的收敛性。

双向同性自增强UHMWPE板材的制备

在室温条件下,对超高分子量聚乙烯(UHMWPE)模压板双向辊压,以实现双向自增强。探究了双向均匀提升模压板性能的技术可行性,考察了辊压比对模压板球晶形变的影响以及自增强板材聚集态结构与其力学性能的关联性。结果表明,辊压使原模压板约71.2 nm的球晶细化至39.4 nm的微晶,结晶度从45.2%降至40.2%,部分正交晶系转变为单斜晶系。辊压比达36.6%的自增强板材,两个方向的拉伸强度分别达到了62、60 MPa。

王弼老学之道突破的内在逻辑发微

“道”作为《老子》的核心范畴由具象性的获得而实现的突破必然有其内在逻辑,在王弼的《老子注》中其实隐含了对这一线索的厘定。王弼从“如何能周全万有”问题的考察出发,在对人类社会与自然界进行批判过程中,发现天地通过向它者取法而得以周全,进而在追问其所法者为何的过程中,得到了作为万有之本根的“混成之状”。这是凭藉其无限性克服了“形名”的局限。同时,“混成之状”侧重于对本体样貌的描述,不能最大限度包容万有并突显其根据性,所以以“道”字命名便是必然选择。从此,“道”便获得了突破而成为最高的哲学范畴。

基于扰动观测的构网型柔直系统阻尼控制器设计

构网型柔直逆变器具有惯性支撑能力,可对低惯性电网进行频率支撑,但也具有类似同步发电机的振荡特性,系统受扰后构网型逆变站易参与电网振荡,导致振荡范围扩大。首先构建了构网型逆变站和受端电网的简化状态空间模型,基于奇异值分解技术研究了控制器参数、柔直并网位置以及电网惯量分布对交直流系统振荡特性的影响,确定了两区域系统中柔直的最佳并网位置。接着利用构网型逆变站对电网扰动的主动响应能力,设计了基于扩展状态观测技术的振荡阻尼控制器(disturbance observer-based damping controller,DODC),利用构网型逆变站自身的量测对交直流混联系统的关键状态进行实时估计,并利用二次型最优反馈控制实现关键振荡模态阻尼抑制。最后通过DIgSILENT/PowerFactory-MATLAB联合仿真模型对所提控制策略的有效性进行了验证。

校园春花、春叶植物景观对大学生身心健康的影响研究

为了研究大学生易接触的校园春季植物景观对其情绪恢复的影响,定量分析了大学生对校园春季花、叶两类植物景观观赏前后的生理状态指标(血压、心率、血样饱和浓度)和心理状态指标(总体情绪紊乱程度)变化值。结果表明:在生理指标方面,同一指标的各试验组的测试结果不同,但对于大学生身心状态的恢复有正向效应;观察不同春季植物景观对血压收缩压、血氧饱和浓度的恢复性效果与其他指标比较恢复性效果不明显,总体呈现出春季观花植物对各指标的恢复性效果最好。在心理指标上,大学生的总体情绪紊乱程度值(TMD)与室内TMD相比都有明显下降;不同试验组的总体情绪紊乱程度之间存在差异性,对压力的缓解程度存在差异性。

索膜反射面可展开天线的形态设计

为研究金属反射网和索网的张紧状态对可展开天线形面精度的影响,考虑支撑桁架变形对索膜反射面可展开天线进行形态设计研究。金属反射网可看作一类薄膜结构,由于金属反射网和索网均需施加预张力来达到一定的刚度,因此首先基于索膜结构力密度方程进行形态设计,使其在自身预张力和外载作用下达到满足要求的形状和精度;索膜结构的张拉作用会导致桁架变形,造成再平衡后索膜反射面形面精度的降低和张力分布不合理,因此,需要建立天线整体的非线性有限元模型;对天线模型进行迭代修正,最后得到满足要求的张力设计变量和天线构型。最后通过相应算例,验证了方法的正确性。