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A new electromagnetic oscillation phenomenon on vanadium-compensationsemi-insulating 4H-SiC PCSS
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作者 Lin Zhouyang Chen Zhipeng +7 位作者 Sun Qian Zheng Zhong Xu Kun Jiang Shuqing Zhang Yuming Wang Yutian Hu Yanfei Guo Hui 《强激光与粒子束》 北大核心 2025年第5期112-118,共7页
Constructing a photoconductive semiconductor switch (PCSS)-metal coil structure, we discovered anew phenomenon of electromagnetic oscillation in vanadium-compensation semi-insulating (VCSI) PCSS. Here thePCSS responds... Constructing a photoconductive semiconductor switch (PCSS)-metal coil structure, we discovered anew phenomenon of electromagnetic oscillation in vanadium-compensation semi-insulating (VCSI) PCSS. Here thePCSS responds to laser pulse and high-voltage signal while the metal coil generates an oscillating voltage pulseenvelope signal. The generation of this oscillating signal is not related to the input bias voltage of the PCSS, the pulsecircuit components, or the electrode structure of the PCSS, rather it is related to the output characteristic of the PCSS.This physical phenomenon can be explained using the current surge model in photoconducting antenna. Preparingohmic contact electrode on the silicon carbide material forms the PCSS, which generates a large number ofphotogenerated carriers when ultra-fast laser pulses irradiate the surface of the material and Simultaneously applies abias voltage signal between the electrode. At this time inside the PCSS the electric field causes the transient current,radiating electromagnetic wave to the metal coil to generate oscillating signal. 展开更多
关键词 VCSI 4H-SiC PCSS electromagnetic oscillation current surge model
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Construction of 1D Mn_(x)O_(y)/C@Fe_(3)O_(4) Heterostructure for Ultralight Broadband Electromagnetic Wave Absorption
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作者 SONG Zhiming LIU Bin +2 位作者 YI Peng HAN Xuhui LIU Xiaofang 《陶瓷学报》 北大核心 2025年第4期729-741,共13页
[Background and purposes]In recent years,there has been growing attention in academia and industry on the development of high-performance electromagnetic wave(EMW)absorbing materials.However,creating lightweight broad... [Background and purposes]In recent years,there has been growing attention in academia and industry on the development of high-performance electromagnetic wave(EMW)absorbing materials.However,creating lightweight broadband absorbers remains a challenge in terms of practical applications.EMW absorbing materials primarily rely on the magnetic loss of magnetic materials and/or the dielectric loss of dielectric materials to convert EMW energy into thermal energy for dissipation.Among various magnetic materials,Fe_(3)O_(4) plays an irreplaceable role in EMW absorption due to its high saturation magnetization,low cost and compatible dielectric loss in the gigahertz frequency range.Nevertheless,the high density,large matching thickness and narrow absorption bandwidth of Fe_(3)O_(4) pose significant challenges for practical applications.In contrast,one-dimensional(1D)structures not only retain the characteristic properties of lightweight,chemical stability and high dielectric loss,but also exhibit anisotropic structures and large aspect ratios.Additionally,researchers have found that the minimum reflection loss(RL)of hollow carbon materials with mesopores is nearly four times that of non-porous hollow carbon materials and nine times that of dense carbon materials.According to Maxwell's EMW theory,composites consisting of Fe_(3)O_(4) and one-dimensional(1D)mesoporous carbon materials can leverage their respective advantages by optimizing the composition and structure of the composites to balance u,and Er,thereby enhancing EMW absorption performance.Additionally,numerous studies have demonstrated that composites composed of multi-component heterostructures significantly enhance the EAB.This enhancement is primarily ascribed to the numerous interface polarization losses generated by the additional heterostructure interfaces,which also improve the overall impedance matching of the composites.In this study,we leverage the advantages of magnetic/carbon composites,one-dimensional(1D)mesoporous carbon and multi-component heterostructures to prepare a composite of 1D mesoporous carbon-coated manganese oxide(Mn_(3)O_(4) and MnO,denoted as Mn_(x)O_(y))embedded with Fe_(3)0_(4) nanoparticles(Mn_(x)O_(y)/C@Fe_(3)O_(4)).This composite was synthesized and its formation mechanism and microstructure were analyzed in detail.At the same time,the influence of this Mn_(x)O_(y)/C@Fe_(3)O_(4) structure on EMW properties and absorbing performance was further discussed.[Methods]Firstly,MnO_(2) nanowires were synthesized by using a simple hydrothermal method.Then,the MnO_(2) nanowires served as templates for the synthesis of MnO_(2)/PDA@Fe^(3+)composites through the in-situ polymerization of dopamine and Fe^(3+)adsorption.Finally,1D mesoporous carbon-coated manganese oxide composite embedded with Fe_(3)O_(4) nanoparticles(Mn_(x)O_(y)/C@Fe_(3)O_(4))composites were obtained after heat treatment at 550℃ in N_(2).The crystal structure of the samples was analyzed using X-ray diffractometer with Cu Ka irradiation.Scanning electron microscopy(SEM)and high-resolution transmission electron microscopy(TEM)were used to observe microstructure and morphology of the samples.Nitrogen sorption measurements were obtained at 77 K on a Quantachrome surface area and pore size analyzer to measure the specific surface area and pore size distribution.XPS analysis was performed on X-ray photoelectron spectrometer with monochromatic Al Ka radiation.Magnetization curves of the samples were recorded with a Quantum Design physical property measurement system(PPMS-9)at room temperature.The electromagnetic parameters of the Mn_(x)O_(y)/C@Fe_(3)O_(4) composites were measured using an Agilent N5230C network analyzer in the frequency range of 2-18 GHz.For electromagentic testing,the Mn,Oy/C@Fe34 composites and paraffin wax were mixed at 50°C according to the mass ratio of 15 wt.%,20 wt.%and 25 wt.%,and pressed in a special mold to make coaxial rings(inner diameter=3.04 mm,outer diameter-7 mm),which were denoted as S-1,S-2 and S-3,respectively.[Results]SEM images illustrate the preparation process of iD mesoporous carbon-coated manganese oxide embedded with Fe3O4 nanoparticles composites(Mn_(x)O_(y)/C@Fe_(3)O_(4)).Most of the manganese oxide(Mn,Oy)was reduced to granular after heat treatment,while the outer carbon layer remains its 1D morphology and the carbon layer is interspersed with Fe_(3)O_(4) nanoparticles.The diffraction peaks of MnO_(2) nanowires align well with the body-centered tetragonal a-MnO2.For the Mn_(x)O_(y)/C@Fe_(3)O_(4) composites,the signals of α-MnO_(2) disappears,followed by the emergence of Mn_(3)O_(4) and three prominent diffraction peaks for the cubic MnO.In addition,four weak diffraction peaks correspond to the magnetite Fe_(3)O_(4),consistent with the HRTEM results.The corresponding nitrogen adsorption-desorption isotherm and pore size distribution curve are presented to further analyze the mesoporous structure of composite.The surface composition and element valence states of the Mn_(x)O_(y)/C@Fe_(3)O_(4) composite were investigated by using XPS.The polarization relaxation processes were analyzed according to the Debye theory which describes the relationship between e'and e".Besides the polarization loss,the contribution of the conduction loss plays an important role for the overall dielectric loss.The magnetization curve of Mn_(x)O_(y)/C@Fe_(3)O_(4) exhibits typical ferromagnetic behavior.The permittivity parameter(Co),defined as Co=u"(u)^(-2)f^(-1) determine the contribution of eddy current effect to magnetic loss.The tand values are all larger than those of tand,for the three samples,indicating that the loss capacity of Mn_(x)O_(y)/C@Fe_(3)O_(4) composites is mainly derived from the dielectric loss.Although tand,is smaller,it plays an important role in improving the impedance matching of Mn_(x)O_(y)/C@Fe_(3)O_(4) composites.When the filler loading is 15 wt.%,the RL of sample S-1 is about-10.0 dB at the thickness of 1.5 mm with narrow EAB.As the filler loading increased to 20 wt.%,the RL of sample S-2 reached-62.0 dB at a thickness of 2.2 mm and the EAB was 6.4 GHz at a small thickness of 1.7 mm.When the filler loading is further increased to 25 wt.%,the microwave absorption performance of sample S3 decreased significantly with a little region of RL<-10.0 dB at the thickness of 5.0 mm.The values of[Zin/Zol of the three samples at thicknesses of 1.5-5.0 mm were calculated.Due to good impedance matching of S-2,the incident EMW can enter the material and then can be dissipated through dipole polarization loss,interface polarization loss,conduction loss,eddy current loss and natural ferromagnetic resonance loss.[Conclusions]1D Mn_(x)O_(y)/C@Fe_(3)O_(4) was synthesized via a process involving the coating of polydopamine,adsorption of Fe(ll)salts and heat treatment,using MnO_(2) nanowires as templates.The multi-component heterostructure of the Mn_(x)O_(y)/C@Fe_(3)O_(4) composite(Mn_(3)O_(4),MnO,Fe_(3)O_(4),and C)enhances the interfacial interactions between the different phases,providing increased interface polarization loss under the action of an alternating electromagnetic field.The numerous defects and terminal groups in the mesoporous carbon provide abundant dipole polarization centers.Additionally,the presence of mesopores reduces the weight of the material while increasing the multiple scattering losses of the electromagnetic waves within the material.The ID carbon structure in the matrix forms a conductive network between adjacent fibers,facilitating electron migration and transition,thereby enhancing conductive loss.The incorporation of magnetic Fe_(3)O_(4) nanoparticles introduces eddy current loss and natural ferromagnetic resonance loss,thus increasing magnetic loss.Moreover,the synergistic effect between dielectric and magnetic losses improves the impedance matching of the material,leading to excellent EMW absorption performance. 展开更多
关键词 electromagnetic wave absorbing materials impedance matching ultralight BROADBAND
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Simulation and experimental study on the use of shaped charge jet as transient antennas for radiating electromagnetic pulses
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作者 Jiahui Guo Bin Ma +2 位作者 Zhengxiang Huang Yong Peng Xin Jia 《Defence Technology(防务技术)》 2025年第5期260-274,共15页
In this study,the potential application of shaped charge jets as transient antennas for electromagnetic signal transmission was explored and an electromagnetic pulse radiation system with a shaped charge jet as a tran... In this study,the potential application of shaped charge jets as transient antennas for electromagnetic signal transmission was explored and an electromagnetic pulse radiation system with a shaped charge jet as a transient antenna was proposed.During the research,crucial characteristics of the transient antenna formed by a shaped charge with a 30 mm diameter,such as resonant frequency,radiation pattern,and radiation efficiency,were evaluated.The typical shaped charge jet morphology was obtained based on the simulations,in which it could insight the dynamic behavior of the shaped charge jet selected.An equivalent model experiment was employed to test the radiation efficiency,and it showed that a shorting pin loading method could increase the relative bandwidth of the jet antenna to 32.8%,and the experimental results correlate with the theoretical predictions for half-wave dipole antennas reasonably well.Additionally,variations in the diameter of the shaped charge jet were found to affect the input impedance and impedance bandwidth,while the length of the jet influenced the resonant frequency of the antenna.This suggests that altering these parameters can achieve reconfigurability of the jet antenna. 展开更多
关键词 Shaped charge Transient antenna electromagnetic pulse Radiated power Reconfigurable antenna
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Increasing both the electromagnetic shielding and thermal conductive properties of three-dimensional graphene-CNT-SiC hybrid materials 被引量:1
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作者 FENG Fan HAN Zhi-dong +4 位作者 WEI Bing WANG Yang WANG Fei-zhou JIAO Yan-yan WANG Zhen-ting 《新型炭材料(中英文)》 SCIE EI CAS CSCD 北大核心 2024年第6期1178-1190,共13页
During the operation of electronic devices,a considerable amount of heat and electromagnetic radiation is emitted.Therefore,the investigation of materials with electromagnetic shielding and thermal management abilitie... During the operation of electronic devices,a considerable amount of heat and electromagnetic radiation is emitted.Therefore,the investigation of materials with electromagnetic shielding and thermal management abilities has significant importance.Hybrid materials of three-dimensional graphene networks containing both carbon nanotubes(CNTs)and SiC whiskers(3D graphene-CNT-SiC)were synthesized.Using an aqueous-phase reduction method for the self-assembly of the graphene oxide,a three-dimen-sional porous graphene structure was fabricated.SiC whiskers,inserted between the graphene layers,formed a framework for longit-udinal thermal conduction,while CNTs attached to the SiC surface,created a dendritic structure that increased the bonding between the SiC whiskers and graphene,improving dielectric loss and thermal conductivity.It was found that the thermal conductivity of the hybrid material reached 123 W·m^(-1)·K^(-1),with a shielding effectiveness of 29.3 dB when the SiC addition was 2%.This result indic-ates that 3D graphene-CNT-SiC has excellent thermal conductivity and electromagnetic shielding performance. 展开更多
关键词 Thermal management electromagnetic Shielding 3D graphene Silicon carbide Carbon nanotubes
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An internal ballistic model of electromagnetic railgun based on PFN coupled with multi-physical field and experimental validation 被引量:1
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作者 Benfeng Gu Haiyuan Li Baoming Li 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2024年第2期254-261,共8页
To accelerate the practicality of electromagnetic railguns,it is necessary to use a combination of threedimensional numerical simulation and experiments to study the mechanism of bore damage.In this paper,a three-dime... To accelerate the practicality of electromagnetic railguns,it is necessary to use a combination of threedimensional numerical simulation and experiments to study the mechanism of bore damage.In this paper,a three-dimensional numerical model of the augmented railgun with four parallel unconventional rails is introduced to simulate the internal ballistic process and realize the multi-physics field coupling calculation of the rail gun,and a test experiment of a medium-caliber electromagnetic launcher powered by pulse formation network(PFN)is carried out.Various test methods such as spectrometer,fiber grating and high-speed camera are used to test several parameters such as muzzle initial velocity,transient magnetic field strength and stress-strain of rail.Combining the simulation results and experimental data,the damage condition of the contact surface is analyzed. 展开更多
关键词 Internal ballistic modeling electromagnetic rail gun Multi-physics field coupling Experimental validation PFN
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Fast measurement and prediction method for electromagnetic susceptibility of receiver 被引量:1
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作者 CHEN Yan LU Zhonghao LIU Yunxia 《Journal of Systems Engineering and Electronics》 SCIE CSCD 2024年第2期275-285,共11页
Aiming at evaluating and predicting rapidly and accurately a high sensitivity receiver’s adaptability in complex electromagnetic environments,a novel testing and prediction method based on dual-channel multi-frequenc... Aiming at evaluating and predicting rapidly and accurately a high sensitivity receiver’s adaptability in complex electromagnetic environments,a novel testing and prediction method based on dual-channel multi-frequency is proposed to improve the traditional two-tone test.Firstly,two signal generators are used to generate signals at the radio frequency(RF)by frequency scanning,and then a rapid measurement at the intermediate frequency(IF)output port is carried out to obtain a huge amount of sample data for the subsequent analysis.Secondly,the IF output response data are modeled and analyzed to construct the linear and nonlinear response constraint equations in the frequency domain and prediction models in the power domain,which provide the theoretical criteria for interpreting and predicting electromagnetic susceptibility(EMS)of the receiver.An experiment performed on a radar receiver confirms the reliability of the method proposed in this paper.It shows that the interference of each harmonic frequency and each order to the receiver can be identified and predicted with the sensitivity model.Based on this,fast and comprehensive evaluation and prediction of the receiver’s EMS in complex environment can be efficiently realized. 展开更多
关键词 electromagnetic susceptibility(EMS) RECEIVER dualchannel multi-frequency nonlinear response frequency domain power domain
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Effect and mechanism of on-chip electrostatic discharge protection circuit under fast rising time electromagnetic pulse
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作者 Mao Xinyi Chai Changchun +3 位作者 Li Fuxing Lin Haodong Zhao Tianlong Yang Yintang 《强激光与粒子束》 CAS CSCD 北大核心 2024年第10期44-52,共9页
The electrostatic discharge(ESD)protection circuit widely exists in the input and output ports of CMOS digital circuits,and fast rising time electromagnetic pulse(FREMP)coupled into the device not only interacts with ... The electrostatic discharge(ESD)protection circuit widely exists in the input and output ports of CMOS digital circuits,and fast rising time electromagnetic pulse(FREMP)coupled into the device not only interacts with the CMOS circuit,but also acts on the protection circuit.This paper establishes a model of on-chip CMOS electrostatic discharge protection circuit and selects square pulse as the FREMP signals.Based on multiple physical parameter models,it depicts the distribution of the lattice temperature,current density,and electric field intensity inside the device.At the same time,this paper explores the changes of the internal devices in the circuit under the injection of fast rising time electromagnetic pulse and describes the relationship between the damage amplitude threshold and the pulse width.The results show that the ESD protection circuit has potential damage risk,and the injection of FREMP leads to irreversible heat loss inside the circuit.In addition,pulse signals with different attributes will change the damage threshold of the circuit.These results provide an important reference for further evaluation of the influence of electromagnetic environment on the chip,which is helpful to carry out the reliability enhancement research of ESD protection circuit. 展开更多
关键词 fast rising time electromagnetic pulse damage effect electrostatic discharge protection circuit damage location prediction
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轴向磁场永磁电机振动噪声优化研究 被引量:1
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作者 曹永娟 李康 +3 位作者 许烨枫 蔡骏 贾红云 晋德龙 《电工电能新技术》 北大核心 2025年第1期23-32,共10页
轴向磁场永磁电机(AFPMM)具有调速范围宽、控制灵活等特点,在电动工具和电动汽车领域具有良好的优势。为了实现该电机的低振动、低噪声、高性能的目标,分析了电机轴向电磁力来源和时空分布特征,确定了不同时间和空间阶次下的谐波幅值。... 轴向磁场永磁电机(AFPMM)具有调速范围宽、控制灵活等特点,在电动工具和电动汽车领域具有良好的优势。为了实现该电机的低振动、低噪声、高性能的目标,分析了电机轴向电磁力来源和时空分布特征,确定了不同时间和空间阶次下的谐波幅值。再结合轴向电磁力在不同时间和空间阶次下的谐波幅值,分析了AFPMM负载时的振动加速度和噪声幅值变化。最后将轴向电磁力作为优化目标,利用遗传算法对电机参数进行分层优化,在有限元仿真的基础上,进行实验验证,通过对比分析优化前后振动加速度和噪声值大小,证明参数优化有效改善了AFPMM的电磁振动噪声。 展开更多
关键词 轴向电磁力 振动 噪声 分层优化
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地球空间环境中的低频电磁波传播数值计算与应用
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作者 周晨 徐翔 +11 位作者 吴怡韵 刘默然 赵庶凡 高帅和 熊桥坡 徐彤 张学民 彭怀云 李清亮 李雪 刘勇 赵正予 《电波科学学报》 北大核心 2025年第4期709-735,751,共28页
地球空间环境中的低频电磁波传播既是空间物理学和电波传播研究的重要内容,同时也对低频通信导航、近地空间环境监测等工程应用具有重要价值。本文先介绍了地球空间环境的基本特征,并剖析了低频电磁波在各区域中的传播特性。继而回顾了... 地球空间环境中的低频电磁波传播既是空间物理学和电波传播研究的重要内容,同时也对低频通信导航、近地空间环境监测等工程应用具有重要价值。本文先介绍了地球空间环境的基本特征,并剖析了低频电磁波在各区域中的传播特性。继而回顾了低频电磁波传播研究的历史进程,系统梳理了从早期经验观测到现代多卫星多平台联合分析与数值模拟并重的演变过程。随后,介绍了目前低频电磁波传播的主流数值计算方法,涵盖射线追踪、全波解、波导模、有限元、有限差分时域方法;并结合自然源与人工源两大类激励,探讨了地球空间环境中低频电磁波传播的一系列核心科学问题以及应用场景。最后,针对当前数值模拟方法的局限性提出研究展望。本文旨在构建跨尺度融合、多物理场耦合与自适应高效计算的低频电磁波传播数值模拟模型,为相关科学研究和工程应用提供坚实的支撑。 展开更多
关键词 低频电磁波 电波传播 数值模拟 电磁计算 地球空间环境
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室内电磁波传播衰减统计模型用于矿井的适用性研究 被引量:1
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作者 孙继平 彭铭 《工矿自动化》 北大核心 2025年第2期1-8,共8页
5G,5.5G,WiFi6,WiFi7,UWB,ZigBee等矿井移动通信、人员和车辆定位、无线视频和无线传感等系统的设计、规划和优化,需进行矿井电磁波传播分析。电磁波传播衰减统计模型是预测电磁波传播衰减的有效方法。分析研究了室内电磁波传播衰减统... 5G,5.5G,WiFi6,WiFi7,UWB,ZigBee等矿井移动通信、人员和车辆定位、无线视频和无线传感等系统的设计、规划和优化,需进行矿井电磁波传播分析。电磁波传播衰减统计模型是预测电磁波传播衰减的有效方法。分析研究了室内电磁波传播衰减统计模型在矿井的适用性:①矿井电磁波传播为有限空间特殊环境中远距离传播,与地面室内长方体简单环境中近距离电磁波传播不同。②矿井巷道四周为较厚的煤岩,对电磁波具有较强的吸收能力,巷道支护材料进一步阻挡了电磁波穿透,一般不考虑电磁波穿墙衰减。室内−室内电磁波传播衰减统计模型中的COST−Multi−Wall模型、Keenan−Motley模型考虑电磁波穿墙衰减,不适用于矿井。③矿井的基站和无线终端均在巷道内,为有限空间内部电磁波传播。室外−室内电磁波传播衰减统计模型适用于基站在室外开放空间、无线终端在室内有限空间的电磁波传播,不适用于矿井。分析研究了室内电磁波传播衰减统计模型对矿井不同场景(矿井辅助运输大巷、掘进巷道、拐弯巷道、分支巷道、综采工作面)中电磁波传播衰减的预测误差:利用室内电磁波传播衰减统计模型中的WINNER II模型、3GPP InH−Office模型、ITU−R P.1238模型、ITU−R M.2412 InH模型预测矿井电磁波传播衰减时,总的误差均值分别为9.3,8.2,9.9,7.7 dB,由于预测误差较大,这些模型不适用于矿井。目前没有专门针对矿井特殊环境建立的矿井电磁波传播衰减统计模型。因此,有必要针对矿井有限空间特殊环境,研究建立矿井电磁波传播衰减统计模型,指导矿井通信基站和定位分站及其天线的设计和布置。 展开更多
关键词 矿井通信 电磁波传播 电磁波衰减 统计模型 基站布置
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基于电磁感应的油液铁磁性磨粒动态检测仿真研究 被引量:1
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作者 张浩 魏海军 +1 位作者 梁寒钰 朱超 《传感器与微系统》 北大核心 2025年第3期42-45,共4页
建立了基于电磁感应原理双螺管线圈的数学物理模型,通过仿真分析得到了线圈结构参数最优解。针对静态仿真模型与实际油液磨粒状态不符及精确较差问题,本文引入了斯托克斯颗粒自由沉淀公式,模拟磨粒在润滑油中的自由沉淀过程,分析了线圈... 建立了基于电磁感应原理双螺管线圈的数学物理模型,通过仿真分析得到了线圈结构参数最优解。针对静态仿真模型与实际油液磨粒状态不符及精确较差问题,本文引入了斯托克斯颗粒自由沉淀公式,模拟磨粒在润滑油中的自由沉淀过程,分析了线圈输出信号与运动磨粒相关特征的关系,得到了更接近实际的状态的仿真结果。验证结果表明:传感器的检测精度可以控制在±7.6%以内,并且可以识别不同尺寸的磨粒。 展开更多
关键词 油液检测 磨粒检测 电磁感应 线圈仿真
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基于磁粒研磨法的电磁铁温升研究
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作者 孙岩 潘明诗 +3 位作者 刘冰洋 李厚乐 韩冰 陈燕 《表面技术》 北大核心 2025年第12期164-174,共11页
目的 探究电磁铁工作时的温度变化,并为其设计合理的散热装置。方法 以有效加工时间和管件内表面粗糙度为评价标准,通过优化电磁铁电流参数和散热条件,延长电磁铁有效加工时间,提高研磨效率。对电磁铁进行多物理场耦合仿真,采用Maxwell... 目的 探究电磁铁工作时的温度变化,并为其设计合理的散热装置。方法 以有效加工时间和管件内表面粗糙度为评价标准,通过优化电磁铁电流参数和散热条件,延长电磁铁有效加工时间,提高研磨效率。对电磁铁进行多物理场耦合仿真,采用Maxwell软件进行电磁损耗分析,将电磁损耗耦合到Fluent中进行温度场仿真,参考仿真结果设计出合理的散热装置并对电流进行优化,最后通过钛合金管内表面研磨试验确定最佳电流参数。结果 从不同角度对3A、3Hz正弦电流下的电磁铁进行风冷散热对比,1工位风冷散热后电磁铁最高仿真温度为59.5℃;2工位风冷散热后电磁铁最高仿真温度为51.3℃。2工位下,将峰值电流分别增大至3.5、4 A,风冷散热后仿真温度分别为66.9、88.9℃。对不同工况下的电磁铁温升及电流损失进行监测,在3 A、3 Hz电流下,无散热措施时,电磁铁工作15 min后到达极限工作温度,电流损失0.49 A;在散热条件下,采用3 A、3 Hz电流研磨钛合金管,电磁铁温度最终稳定在58.6℃,电流损失0.34 A。研磨40 min后,管件内表面粗糙度由原始Ra 0.601μm下降到Ra 0.172μm;采用3.5 A、3 Hz电流研磨钛合金管,电磁铁温度最终稳定在75.7℃,电流损失0.23 A。研磨20 min后,管件内表面粗糙度由原始Ra 0.618μm下降到Ra 0.223μm。结论 侧面布置散热风扇(2工位),电磁铁散热效果更好,装置运行时更加安全可靠;通过仿真模拟和研磨试验确定3 A、3 Hz为理想加工电流;采用3 A、3 Hz电流研磨时,在风冷散热作用下电磁铁无需停机散热,提高了研磨效率。 展开更多
关键词 电磁铁 磁粒研磨 电磁损耗 电磁-热-流耦合 表面质量 表面粗糙度
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独立供电系统传导干扰黑箱建模方法 被引量:1
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作者 王浩宇 孙红鹏 +3 位作者 张涛 张刚 白焱 段建东 《中国电机工程学报》 北大核心 2025年第6期2347-2357,I0026,共12页
飞机和船舶中的独立供电系统具有多等级电网混合交联、多元电气设备动态加载的特点,由此造成其传导干扰多源、多径传输,传导干扰分析和抑制面临极大困难。该文提出采用黑箱建模方法,仅基于设备端口特性参数的测量,通过戴维南等效建立传... 飞机和船舶中的独立供电系统具有多等级电网混合交联、多元电气设备动态加载的特点,由此造成其传导干扰多源、多径传输,传导干扰分析和抑制面临极大困难。该文提出采用黑箱建模方法,仅基于设备端口特性参数的测量,通过戴维南等效建立传导干扰的多端口网络模型,进而可通过模型的级联构建系统级传导干扰分析模型。该方法无需设备内部电路参数和配置信息,模型通用性强。通过24 V直流供电系统验证,实验结果表明,随着系统用电设备数量和种类的增加,该方法仍能准确预测系统的传导发射情况,证明了该方法是系统级传导干扰分析的有效手段。 展开更多
关键词 传导电磁干扰 黑箱模型 戴维南等效 独立供电系统 电磁兼容
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电机电磁振动分析方法及抑制技术综述
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作者 程明 赵晨辰 +2 位作者 王玉彬 马钲洲 周嘉炜 《电气工程学报》 北大核心 2025年第4期1-21,共21页
电机的振动可根据成因分为通风振动、机械振动以及电磁振动,其中电磁振动是电机振动的主要分量,由电机气隙磁场分量作用在铁心上形成的电磁力引起。对电机电磁振动进行分析时,可认为电磁力作用在电机结构上,激励起电机模态,各阶模态产... 电机的振动可根据成因分为通风振动、机械振动以及电磁振动,其中电磁振动是电机振动的主要分量,由电机气隙磁场分量作用在铁心上形成的电磁力引起。对电机电磁振动进行分析时,可认为电磁力作用在电机结构上,激励起电机模态,各阶模态产生的振动响应叠加,进而产生振动响应。因此电机电磁振动分析需要对电机气隙磁场在铁心上产生的电磁力以及电机整体模态进行研究。介绍现阶段电机电磁振动的相关分析方法,总结各类电机的电磁力谐波分量、电机的电磁力谐波成分影响因素,综述了电机模态、电磁振动响应的常用研究方法以及电机电磁振动抑制技术等,同时介绍相关的研究成果及其优缺点。最后对电机电磁振动研究的未来技术发展方向做出展望。 展开更多
关键词 电机电磁振动 电磁力分析 模态分析 电磁振动抑制
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强电磁脉冲对雷达系统的威胁与对策
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作者 谢金祥 余振坤 《现代雷达》 北大核心 2025年第6期75-81,共7页
具备峰值功率大、频谱范围宽、能量高等特点的强电磁脉冲源通过“前门”和“后门”耦合干扰,能够损伤收发(T/R)组件等雷达电子设备的核心部件,甚至摧毁整个雷达系统,所以文中提出了对雷达设备按系统、组件、器件进行逐层逐级的电磁防护... 具备峰值功率大、频谱范围宽、能量高等特点的强电磁脉冲源通过“前门”和“后门”耦合干扰,能够损伤收发(T/R)组件等雷达电子设备的核心部件,甚至摧毁整个雷达系统,所以文中提出了对雷达设备按系统、组件、器件进行逐层逐级的电磁防护。利用等离子体、频率选择表面、能量选择表面、级联能量―频率选择表面、电磁斗篷等新材料、新方法制成具有强电磁脉冲防护功能的新型雷达罩;将电磁屏蔽材料、吸波材料、滤波器、光电转换器、浪涌抑制器等材料和器件应用在T/R组件中,从而对组件进行有效的强电磁脉冲防护;采用特定的时域、频域雷达系统设计,并运用自适应电磁干扰对消、演化硬件等技术建立智能化电磁防护系统,使雷达具备对复杂电磁环境的自动适应能力。 展开更多
关键词 强电磁脉冲 “前门”耦合 “后门”耦合 电磁防护 电磁材料与器件
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基于2D-3D电磁场-路耦合新计算方法的百万千瓦级半速汽轮发电机端部区域多物理场研究 被引量:1
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作者 韩继超 王昕宇 +1 位作者 邱家玉 戈宝军 《中国电机工程学报》 北大核心 2025年第1期217-227,I0018,共12页
核能相对于传统火电具有更加广阔的应用前景,发展高效安全的核电半速汽轮发电机是核电技术发展的关键。作为电力系统的核心装备,随着百万千瓦级核电半速汽轮发电机单机容量的不断提高,其端部区域损耗和发热问题日趋严重。为了提高核电... 核能相对于传统火电具有更加广阔的应用前景,发展高效安全的核电半速汽轮发电机是核电技术发展的关键。作为电力系统的核心装备,随着百万千瓦级核电半速汽轮发电机单机容量的不断提高,其端部区域损耗和发热问题日趋严重。为了提高核电半速汽轮发电机端部电磁场和损耗的计算精度,提出一种2D-3D电磁场-路耦合新计算方法,研究1 407 MV·A核电半速汽轮发电机端部区域内电磁场和端部构件损耗的分布规律,采用磁场储能法和解析法计算得到定子端部漏抗,将定子端部漏抗应用于核电半速汽轮发电机外电路中,对二维瞬态电磁场、三维端部瞬态电磁场以及负载外电路进行了耦合计算,考虑转子旋转、材料特性以及复杂端部构件实际尺寸等因素,研究核电半速汽轮发电机端部电磁场、端部构件磁密和涡流密度的分布情况,确定核电半速汽轮发电机端部构件的损耗。建立了核电半速汽轮发电机三维端部区域流固耦合模型,将新计算方法得到的端部结构件损耗值作为热源,流体网络计算得到端部区域入口速度和出口压力值作为边界条件,计算得到端部区域内复杂流体流动和端部构件温度的分布规律,并与实测值进行对比,验证了所提计算方法的可行性。 展开更多
关键词 半速汽轮发电机 新计算方法 端部电磁场 损耗 温度分布
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基于改进AlexNet的水中兵器电磁引信有源干扰识别方法
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作者 姜喆 唐啸璇 +1 位作者 李沛轩 王海燕 《西北工业大学学报》 北大核心 2025年第1期66-75,共10页
为了提升海洋电磁环境下水中兵器电磁引信有源干扰信号的识别能力,提出了一种基于改进AlexNet的水中兵器电磁引信有源干扰识别方法。建立了干扰信号模型与海洋电磁波信道模型,提取经海洋电磁波信道传播后的干扰信号时频图作为数据集,通... 为了提升海洋电磁环境下水中兵器电磁引信有源干扰信号的识别能力,提出了一种基于改进AlexNet的水中兵器电磁引信有源干扰识别方法。建立了干扰信号模型与海洋电磁波信道模型,提取经海洋电磁波信道传播后的干扰信号时频图作为数据集,通过优化网络结构、增加数据标签、数据增强等方法改进训练出的网络模型,给出了不同干噪比(jamming-to-noise ratio,JNR)条件下的模型识别率及复杂度。仿真结果表明,文中所提方法能在低JNR条件下达到较高的干扰识别率,能够准确识别水中兵器电磁引信有源干扰,同时具有较低的模型复杂度。 展开更多
关键词 水中兵器电磁引信 海洋电磁环境 改进的AlexNet 干扰识别
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高聚焦性双梯形双层经颅磁线圈的设计
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作者 靳贵平 杨思思 +2 位作者 涂治红 徐向民 邢晓芬 《郑州大学学报(工学版)》 CAS 北大核心 2025年第1期119-125,共7页
基于聚焦性能对经颅磁线圈的影响,针对聚焦型线圈商用不足的问题,设计一种具有高聚焦性的单通道双梯形双层线圈。首先使用球头模型分析不同尺寸、相同结构的线圈性能,得到较优的线圈尺寸;为进一步提升聚焦度,再以中尺寸线圈为研究目标,... 基于聚焦性能对经颅磁线圈的影响,针对聚焦型线圈商用不足的问题,设计一种具有高聚焦性的单通道双梯形双层线圈。首先使用球头模型分析不同尺寸、相同结构的线圈性能,得到较优的线圈尺寸;为进一步提升聚焦度,再以中尺寸线圈为研究目标,探讨五种不同结构的双层线圈与两种商用8字形线圈的性能差异,得到最优线圈的结构;最后使用50组存在个体差异性的真实脑模型进行仿真验证,分析球头模型结果的可靠性。仿真结果表明:使用球头模型时,优化后的新型线圈对比70 mm figure-8 coil的聚焦度提升了69.48%,刺激深度减少了27.18%;对比25 mm figure-8 coil的聚焦度提升了44.78%,刺激深度减少了8.5%;使用50组真实脑模型时,优化后的新型线圈对比70 mm figure-8 coil的聚焦度提升了62.07%,刺激深度减少了25.71%;对比25 mm figure-8 coil的聚焦度提升了39.49%,刺激深度减少了9.5%。两种模型仿真数据结果趋于一致,证实了仿真可靠性的同时也证明了新型线圈具有更强的刺激强度和聚焦度,能大大提升TMS治疗的安全性,减少不适感,同时单通道设计易于实现,具有较高的性能优势。 展开更多
关键词 电磁感应 聚焦度 经颅磁刺激 Sim4Life 真实脑模型
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径向磁通永磁同步电机电磁振噪综述 被引量:3
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作者 毛彦欣 赵文祥 《中国电机工程学报》 北大核心 2025年第9期3667-3684,I0033,共19页
永磁同步电机(permanent magnet synchronous machine,PMSM)因其优越的电磁性能被广泛应用,电机的振动噪声特性作为评价其综合性能的重要技术指标而备受关注。该文对径向磁通PMSM电磁振噪方面的国内外研究工作进行概述,对电磁力、结构... 永磁同步电机(permanent magnet synchronous machine,PMSM)因其优越的电磁性能被广泛应用,电机的振动噪声特性作为评价其综合性能的重要技术指标而备受关注。该文对径向磁通PMSM电磁振噪方面的国内外研究工作进行概述,对电磁力、结构模态、电磁振噪分析及抑制方面的现有研究进行系统归纳。对于电机电磁振噪的抑制,主要介绍结构优化方法和控制策略改进方法。最后,阐述现有PMSM电磁振噪研究存在的问题以及未来可能的发展方向。 展开更多
关键词 永磁同步电机 振动和噪声 电磁力 结构模态 控制策略
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水轮发电机转子不圆度诱发的定子铁心振动特性研究 被引量:1
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作者 武玉才 范轩杰 +3 位作者 纪璇 卢伟甫 朱新凯 马明晗 《中国电机工程学报》 北大核心 2025年第1期342-351,I0028,共11页
大型水轮发电机的转子不圆度问题使定子铁心受到低频磁吸力作用,磁吸力交变频率与定子铁心固有振动频率接近时,将诱发定子铁心的低频振动。针对转子不圆度所导致的气隙磁场不对称现象,首先推导了定子铁心上特定点受到的周期性磁吸力表达... 大型水轮发电机的转子不圆度问题使定子铁心受到低频磁吸力作用,磁吸力交变频率与定子铁心固有振动频率接近时,将诱发定子铁心的低频振动。针对转子不圆度所导致的气隙磁场不对称现象,首先推导了定子铁心上特定点受到的周期性磁吸力表达式,获得铁心振动频率与转子磁极不圆度之间的关联规律。随后以1台334 MV·A水轮发电机为例仿真了机组正常和单个磁极、连续磁极、间隔磁极以及椭圆磁极等典型不圆度状态下的电磁力分布,进一步利用瞬态结构分析得到了定子铁心的振动特性。最后在MJF-30-6故障模拟机组上模拟了磁极不圆度造成的磁场不对称现象,定子铁心振动理论分析和仿真结果吻合。 展开更多
关键词 水轮发电机 转子不圆度 不平衡电磁力 瞬态结构分析 定子铁心振动
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