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Irradiation of granite surface by nanosecond pulsed laser:Optimal softening parameters and properties
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作者 LI Zi-kun ZHANG Xue-min +5 位作者 CHEN Jing OU Xue-feng ZHOU Xian-shun WU Chao-guang TANG Ke-lin ZHU Wen-yang 《Journal of Central South University》 2026年第1期317-334,共18页
Irradiating hard rocks by a high-power laser can reduce localized hardness in the rocks;however,continuous lasers produce a large amount of melt that inhibits further heat absorption.Pulsed lasers allow rocks to absor... Irradiating hard rocks by a high-power laser can reduce localized hardness in the rocks;however,continuous lasers produce a large amount of melt that inhibits further heat absorption.Pulsed lasers allow rocks to absorb and dissipate energy and avoid melt formation.In this study,200 W nanosecond pulsed laser was used to irradiate granite.The effects of laser parameters on the thermal cracking morphology,temperature field,warming pattern,and Leeb hardness of the granite surface were analyzed.The optimal laser parameters for softening granite were determined by performing objective optimization in MATLAB using granite's melting point as the reference.Nanoindentation techniques were employed to assess the softening characteristics of the granite surface along the longitudinal direction.The results showed that three main forms of thermal damage occurred on the granite surface:oxidative decomposition,spalling,and melting.The damage state was affected by the average laser power,with the pulse width and repetition frequency affecting surface damage differently.Appropriate laser parameters effectively controlled the melt damage on the granite surface,and irradiation with nanosecond pulsed lasers effectively reduced surface hardness.However,excessive power can generate large amounts of hard melts and weaken the softening effect. 展开更多
关键词 nanosecond pulsed laser assisted rock breaking warming characteristics Leeb hardness nanoindentation test softening characteristics
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Study, development and related application of a miniature compact pulsed power supply with high repetition frequency
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作者 Zhangfei Wang Jian Liu +1 位作者 Chunxia Yang Baoming Li 《Defence Technology(防务技术)》 2025年第5期304-318,共15页
Capacitor-based pulsed power supply(PPS)is widely used in fields related to electromagnetic launch,plasma,and materials'synthesis,modification and processing.As industrial applications place higher requirements on... Capacitor-based pulsed power supply(PPS)is widely used in fields related to electromagnetic launch,plasma,and materials'synthesis,modification and processing.As industrial applications place higher requirements on compact and portable pulsed power supplies,the National Key Laboratory of Transient Physics(NKLTP)recently developed a pulsed power supply consisting of a set of compact pulse-forming units(PFU),each with a capacitor energy storage of 220 kJ.This integrated PPS comes with a complete system configuration,a miniature compact structure,a high rate of repetition,and high power,with energy storage density exceeding 1.2 MJ/m^(3).This paper describes the device-level design of the unit,the system layout,the control system,the thermal management system,and the experimental results of the pulsed power supply.The experimental results verified the good reliability of the PPS at high repetition rates with each unit module delivering an output current of more than 100 kA.Additionally,flexible current pulse shapes can be formed by setting the charging voltage and the trigger sequence of the PFUs.The pulse forming network(PFN)developed from these PFUs was successfully applied to electromagnetic launch. 展开更多
关键词 Electromagnetic railgun pulsed power supply Energy storage density Thermal management system Precision control system
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铝-镀锌钢板异种金属Pulsed DE-MIG熔钎焊方法研究
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作者 顾玉芬 邵玲 +1 位作者 石玗 黄健康 《材料科学与工艺》 EI CAS CSCD 北大核心 2014年第4期118-123,共6页
为精确控制焊接热输入,从而控制铝钢异种金属界面区金属间化合物生长,提出一种新型高效低热输入的脉冲旁路耦合电弧MIG焊(Pulsed DE-MIG)方法,用ER5356铝合金焊丝在镀锌钢板上利用平板堆焊实验对工艺参数进行优化.在焊丝总电流保持不变... 为精确控制焊接热输入,从而控制铝钢异种金属界面区金属间化合物生长,提出一种新型高效低热输入的脉冲旁路耦合电弧MIG焊(Pulsed DE-MIG)方法,用ER5356铝合金焊丝在镀锌钢板上利用平板堆焊实验对工艺参数进行优化.在焊丝总电流保持不变,不同的Pulsed DE-MIG焊接参数下焊接,结果表明随着旁路电流的增大,焊缝宽度显著变小,且焊缝堆高明显变高.采用OM、SEM、EDS等测试手段观察和分析连接界面区的微观组织,发现在连接界面区形成Fe2Al5、FeAl3金属间化合物层,且母材热输入大时,FeAl3析出得多,随着母材热输入的减小,FeAl3析出逐步减少直至FeAl3无析出. 展开更多
关键词 脉冲旁路耦合电弧MIG焊(pulsed DE-MIG) 铝-镀锌钢板异种金属焊接 母材热输入 金属间化合物
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Multifunctional hopeite nanocoating on Ti64 substrates by pulsed laser deposition and radio frequency magnetron sputtering for orthopedic implant applications:A comparative study 被引量:3
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作者 Ashish DAS Mukul SHUKLA 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第8期2198-2209,共12页
Functionalized implants demonstrate an upgraded approach in orthopedic implants,aiming to achieve long term success through improved bio integration.Bioceramic coatings with multifunctionality have arisen as an effect... Functionalized implants demonstrate an upgraded approach in orthopedic implants,aiming to achieve long term success through improved bio integration.Bioceramic coatings with multifunctionality have arisen as an effective substitute for conventional coatings,owing to their combination of various properties that are essential for bio-implants,such as osteointegration and antibacterial character.In the present study,thin hopeite coatings were produced by Pulsed laser deposition(PLD)and radio frequency magnetron sputtering(RFMS)on Ti64 substrates.The obtained hopeite coatings were annealed at 500°C in ambient air and studied in terms of surface morphology,phase composition,surface roughness,adhesion strength,antibacterial efficacy,apatite forming ability,and surface wettability by scanning electron microscope(SEM),X-ray diffraction(XRD),atomic force microscope(AFM),tensometer,fluorescence-activated cell sorting(FACS),simulated body fluid(SBF)immersion test and contact angle goniometer,respectively.Furthermore,based on promising results obtained in the present work it can be summarized that the new generation multifunctional hopeite coating synthesized by two alternative new process routes of PLD and RFMS on Ti64 substrates,provides effective alternatives to conventional coatings,largely attributed to strong osteointegration and antibacterial character of deposited hopeite coating ensuring the overall stability of metallic orthopedic implants. 展开更多
关键词 hopeite Ti64 alloy pulsed laser deposition magnetron sputtering coating IMPLANT
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Design and manufacture of a 100 kA coaxial pulsed power cable for plasma generator and PPS in ETC guns 被引量:1
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作者 Yong Jin Zhen-xiao Li +4 位作者 Yan-jie Ni Xiao-ya Gao Gang Wan Chun-xia Yang Bao-ming Li 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2019年第5期698-702,共5页
Based on our previous pulsed current and internal overvoltage test data and the experience of common commercial high power cables,a 100 kA coaxial pulsed power cable is designed and manufactured to adapt the coaxial e... Based on our previous pulsed current and internal overvoltage test data and the experience of common commercial high power cables,a 100 kA coaxial pulsed power cable is designed and manufactured to adapt the coaxial electric energy breech transmission between the plasma generator and the pulsed power supply(PPS) in electrothermal-chemical(ETC) guns.The index parameters are analyzed and determined.Semi-conductor layers and a shield stiffener are introduced to prevent the deformation and burst of the pulsed power cable structurally.The semi-conductor layer can eliminate the air gap and balance the electric field in the cable.The shield stiffener can multiply the mechanical strength to restrain the strong electrodynamic force produced by the core dislocation of the outer conductor.The multi-coupling of electromagnetic field,stress field and thermal field analysis are established to assist in aided design of electrical strength,mechanical strength and temperature rise characteristics.Both a DC voltage withstand test and pulsed discharge tests are introduced to verify and inspect the performance and dynamic response of the pulsed power cable.The 25 kV/5 min DC voltage withstand test result shows that the sample leakage current is nearly 3 μA and no abnormal phenomena of the pulsed power cable sample occurred.The pulsed discharge tests show that the sample can sustain the 100 kA peak current.Furthermore,this 100 kA coaxial pulsed power cable can satisfy the ETC test requirements. 展开更多
关键词 pulsed POWER cable pulsed POWER supply Electrothermal-chemical LAUNCH COAXIAL structure
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Design and Experiments of the High Voltage Pulsed Electric Fields Sterilization System 被引量:1
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作者 ZHANG Xihai FANG Junlong SHEN Weizheng 《Journal of Northeast Agricultural University(English Edition)》 CAS 2008年第2期54-56,共3页
This experiment designed the pulsed electric fields (PEF) of high intensity of 100 kV· cm^-1 sterilization system. Fluorescent pseudomonas as target cell was operated 180 s in the PEF. By observing the differen... This experiment designed the pulsed electric fields (PEF) of high intensity of 100 kV· cm^-1 sterilization system. Fluorescent pseudomonas as target cell was operated 180 s in the PEF. By observing the difference of the bacteria before and after the disposal by TEM, it is found that the cell walls of the treated bacteria were broken. Irreversible perforations were formed on the cell membrane. The cell inclusions and cell fragments were leaked. The cell died as a result. The results showed that the PEF sterilization system designed can be used for liquid food sterilization experiments. 展开更多
关键词 pulsed electric fields STERILIZATION Fluorescent pseudomonas TEM
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Therapeutic effects on experimental metastastic tumor-bearing mice by vaccination with GM-CSF gene-modified and tumor antigen-pulsed macrophages
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作者 Yizhi Yu, Hong Lei, Minghui Zhang, Weiping Zhang, Xuejun Zhu, Xuetao CaoDepartment of Immunology, The Second Military Medical University , Shanghai 200433 《中国实验血液学杂志》 CAS CSCD 1997年第3期318-319,共2页
The moditication of tumor cells or effcor cellsusing cytokine genes as a strategy to enhance hostantitumor immunity has been studied intensively over
关键词 MACROPHAGES VACCINATION immunity CYTOKINE pulsed EFFECTOR presentation markedly cytotoxicity GRANULOCYTE
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Antigen-pulsed, GM-CSF gene-modified bone marrow stromal cells present tumor antigen to T lymphocytes in vitro
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作者 Minghui Zhang, Weiping Zhang, Xin Huang, Xuetao CaoDepartment of Immunology, The Second Military Median University, Shanghai 200433 《中国实验血液学杂志》 CAS CSCD 1997年第3期319-319,共1页
It has been demonstrated that tbe critical role ofbone marrow stromal cells (HMSCs ) is to sustain theselfrenewal of pluripotent hematopoietic stem cells andmaintain the homeostasis of bone marrow hematopoiesismicroen... It has been demonstrated that tbe critical role ofbone marrow stromal cells (HMSCs ) is to sustain theselfrenewal of pluripotent hematopoietic stem cells andmaintain the homeostasis of bone marrow hematopoiesismicroenvironment. BMSC progenitor can differentiateinto several clements including macrophages, endothelialcells, fibroblasts and some other cells. Almost 展开更多
关键词 Antigen PROGENITOR homeostasis macrophages HEMATOPOIETIC sustain PLURIPOTENT pulsed stimulation secretion
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Degradation of Acid OrangeⅡUsing Negative Pulsed Discharge Plasma from a Nozzle-cylinder Electrode Coated with TiO2
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作者 SUN Ming WANG Shaoqi ZHANG Ying 《高电压技术》 EI CAS CSCD 北大核心 2013年第10期2514-2519,共6页
Many sub-products of pulsed discharge,such as ultraviolet light,strong electric fields,shock waves and active species,are effective in treating wastewater.To improve the efficiency of the discharge plasma technology i... Many sub-products of pulsed discharge,such as ultraviolet light,strong electric fields,shock waves and active species,are effective in treating wastewater.To improve the efficiency of the discharge plasma technology in removing pollutants,adding TiO2 photo-catalyst to pulsed discharges could help.A negative-pulsed-discharge system,which has nozzle discharge electrodes with or without TiO2 coating,is used to degrade azo dye Acid OrangeⅡ,and the effects of several key conditions(maximum pulse voltage,pulse repetition frequency,initial mass concentration of Acid OrangeⅡinitial solution pH,treatment duration,the phase of discharge,and the existence of TiO2)on the degradation are experimentally investigated.The degradation of Acid OrangeⅡincreases with maximum pulse voltage,pulse repetition frequency,and treatment duration,and it is larger when putting the discharge electrode on the solution surface than in air or inside the solution,i.e.the discharge in gas phase is more effective than that in gas-liquid phase or liquid phase.The degradation decreases as the initial mass concentration of the solution increases.It also relates to pH and is higher at acidic conditions than at neutral or alkaline conditions.Compared to treatments without TiO2,the ones using the nozzle discharge electrode with TiO2 coated increase the degradation of Acid OrangeⅡby 5%.It is concluded that the proposed system with TiO2 added in can remove Acid OrangeⅡfrom wastewater effectively. 展开更多
关键词 nozzle-cylinder electrode discharge plasma negative pulsed discharge Acid Orange II degradation rate treatment time
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Low temperature Raman study of PrCoO_3 thin films on LaAlO_3(100) substrates grown by pulsed laser deposition
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作者 PRAKASH R KUMAR S +1 位作者 LEE C G SONG JI 《Journal of Central South University》 SCIE EI CAS 2010年第6期1144-1147,共4页
Thin films of PrCoO3 were deposited on LaAlO3 substrates by pulsed laser deposition technique.X-ray diffraction result indicates that films are single phase and c-axis textured.To investigate the spin state transition... Thin films of PrCoO3 were deposited on LaAlO3 substrates by pulsed laser deposition technique.X-ray diffraction result indicates that films are single phase and c-axis textured.To investigate the spin state transition,Raman spectroscopy measurements were performed at different temperatures.The position of the Raman modes is found to increase while full width at half maximum(FWHM) of these modes is found to decrease with the decrease of temperature across spin state transition temperature(220 K) of PrCoO3. 展开更多
关键词 PrCoO3 thin films Raman spectroscopy pulsed laser deposition
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High temperature cyclic oxidation behavior of Y_2O_3-ZrO_2 thermal barrier coatings irradiated by high-intensity pulsed ion beam
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作者 王一奇 雷明凯 +1 位作者 AFSAR A M SONG J I 《Journal of Central South University》 SCIE EI CAS 2009年第1期13-17,共5页
The high-temperature oxidation resistance behavior of 7% (mass fraction) Y203-ZrO2 thermal barrier coatings (TBCs) irradiated by high-intensity pulsed ion beam (HIPIB) was investigated under the cyclic oxidation... The high-temperature oxidation resistance behavior of 7% (mass fraction) Y203-ZrO2 thermal barrier coatings (TBCs) irradiated by high-intensity pulsed ion beam (HIPIB) was investigated under the cyclic oxidation condition of 1 050 ℃ and 1 h. The columnar grains in the TBCs disappear after the HIPIB irradiation at ion current densities of 100-200 A/cm^2 and the irradiated surface becomes smooth and densified after remelting and ablation due to the HIPIB irradiation. The thermally grown oxide (TGO) layer thickness of the irradiated TBCs is smaller than that of the original TBCs. After 15 cycles, the mass gains of the original TBCs and those irradiated by ion current densities of 100 and 200 A/cm^2 due to the oxidation are found to be 0.8-0.9, 0.6-0.7, and 0.3-0.4 mg/cm^2, respectively. The inward diffusion of oxygen through the irradiated TBCs is significantly impeded by the densified top layer formed due to irradiation, which is the main reason for the improved overall oxidation resistance of the irradiated TBCs. 展开更多
关键词 Y2O3 ZRO2 thermal barrier coating high-intensity pulsed ion beam electron beam physical vapor deposition oxidation resistance cyclic oxidation
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Effect of pulsed electromagnetic frequency on the microstructure, wear and solid erosion resistance of CrAlN coatings deposited by arc ion plating 被引量:2
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作者 WANG Di LIN Song-sheng +5 位作者 LIU Ling-yun XUE Yu-na YANG Hong-zhi YANG Chao YANG Zhen ZHOU Ke-song 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第9期3065-3076,共12页
In this work,the chromium aluminum nitride(CrAlN)coatings were prepared on TC11 titanium alloy by composite magnetic field cathodic arc ion plating with controllable pulse electromagnetic combined with permanent magne... In this work,the chromium aluminum nitride(CrAlN)coatings were prepared on TC11 titanium alloy by composite magnetic field cathodic arc ion plating with controllable pulse electromagnetic combined with permanent magnet.The effects of electromagnetic frequency on the morphology,microstructure,nano-hardness and elastic modulus of the coatings were investigated by scanning electron microscope(SEM),X-ray diffraction(XRD)and nano-indenter.This paper has mainly studied the influence of CrAlN coatings which are prepared at various electromagnetic frequencies on the wear and erosion resistance through a series of wear and solid particle erosion experiments.It was found that the deposition rate of CrAlN coatings increases with the increase of electromagnetic frequency.And CrAlN coatings all preferentially grew along the(111)crystal plane.At 16.7 Hz,with the increase of pulsed electromagnetic frequency,the hardness is the highest(23.6 GPa)and the adhesion is the highest(41.5 N).In addition,the coating deposition exhibited the best wear and solid erosion resistance at 16.7 Hz and 33.3 Hz,the friction coefficient is about 0.35,and the erosion rate is about 0.2μm/g at 30°and less than 1μm/g at 90°,respectively.These results indicate that the CrAlN coating formed at an appropriate pulsed electromagnetic frequency can achieve excellent mechanical properties,wear and solid erosion resistance. 展开更多
关键词 CrAlN coating compound magnetic field pulse electromagnetic frequency mechanical property
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Spectroscopic Diagnostics of Rotational Temperature in the Pulsed Atmospheric Air Plasma
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作者 DONG Pan LI Jie +3 位作者 LI Xi XIE Yutong LONG Jidong ZHANG Linwen 《高电压技术》 EI CAS CSCD 北大核心 2013年第10期2568-2572,共5页
Dielectric barrier discharge(DBD)attracts lots of attentions for its great application promises,and the rotational temperature is one of its mostly important parameters.In order to measure the rotational temperature o... Dielectric barrier discharge(DBD)attracts lots of attentions for its great application promises,and the rotational temperature is one of its mostly important parameters.In order to measure the rotational temperature of a pulsed DBD in atmospheric air,the temperature is studied by using optical emission spectroscopy(OES).The discharge is excited by a high voltage pulse with 124 ns rise time and 230 ns full width at half maximum(FWHM)at a repetition rate of a few hundred hertz.The rotational temperatures are studied using different voltages,different repetition rates of the pulse power supply,and different gaps between dielectrics:They are in the range from 390 K to 500 K during the whole discharge.When the gap between dielectrics increases,the rotational temperature initially decreases and then increases.The rotational temperature changes complexly when the pulse repetition rate changes.When the voltage increases,the rotational temperature always decreases,which is not expected.These results allow one to predict the rotational temperature at different supply power parameters and electrode configurations,which is useful for the DBD's industrial application. 展开更多
关键词 dielectric barrier discharge optical emission spectroscopy rotational temperature nanosecond pulse pulse parameters relativeintensity
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Photothermal dynamics in functionally graded semiconductors with size-dependent effects under pulsed laser excitation
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作者 Kareem Alanazi Ahmed E.Abouelregal Mohamed E.Elzayady 《Defence Technology(防务技术)》 2026年第5期95-111,共17页
This study investigates the photothermal behavior of nonlocal,functionally graded(FG)semiconductor materials under ultra-short pulsed laser heating,addressing a critical gap in understanding the interplay of plasma,th... This study investigates the photothermal behavior of nonlocal,functionally graded(FG)semiconductor materials under ultra-short pulsed laser heating,addressing a critical gap in understanding the interplay of plasma,thermal,and elastic waves.Limited research has explored the combined effects of spatiotemporal nonlocality,FG material properties,and photothermal interactions under pulsed laser excitation in transient conditions.The novelty of this work lies in integrating spatio-temporal nonlocal elasticity theory with the Green–Naghdi(GN-II)thermoelasticity model,which accounts for non-Fourier heat conduction without energy dissipation,and modeling material properties with a power law distribution for advanced semiconductor applications.The research formulates governing equations for a two-dimensional,transversely isotropic FG semiconductor with exponentially varying properties,employs normal-mode analysis to derive exact solutions for displacement,temperature,carrier density,and thermal stresses,and uses numerical simulations to assess the influence of thermoelectric coupling,carrier lifetime,and transient time under non-Gaussian laser pulses and surface recombination boundary conditions.Results show that nonlocal and photothermal effects markedly alter thermal and mechanical responses:thermoelectric coupling reduces temperature and stress magnitudes while increasing displacement,and the GN-II model predicts finite heat-wave speeds consistent with experimental observations.Variations in carrier lifetime and time strongly influence all field variables,underscoring their critical role in dynamic behavior.These findings offer valuable insights for optimizing thermal management in microelectronics and optoelectronic devices and have practical implications for laser-based material processing and non-destructive testing. 展开更多
关键词 Thermoelasticity Photothermal Functionally graded Semiconductor materials pulsed heating
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Multi-wavelength pulses in synchronized mode-locked fiber lasers
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作者 WU Qiong GAO Bo +8 位作者 ZHOU Lu-yao WEN Hong-lin QIAO Fei-hong WU Bing XU Ting LI Qi LI Ying-ying WU Ge LIU Lie 《中国光学(中英文)》 北大核心 2026年第2期445-453,共9页
We designed and investigated a passive synchronized mode-locked fiber laser.The device utilizes a dual-cavity structure driven by the nonlinear polarization rotation(NPR)mechanism.Stable mode-locking is attained by sy... We designed and investigated a passive synchronized mode-locked fiber laser.The device utilizes a dual-cavity structure driven by the nonlinear polarization rotation(NPR)mechanism.Stable mode-locking is attained by synergistically controlling gain,polarization state,and optical path length in two symmetric sub-cavities.Experiments proved that repetition rate of the sub-cavities can be adjusted via the time delay line(TDL)to achieve synchronized mode-locking.The system stably generates multi-wavelength pulses at a single repetition frequency,evidenced by multiple spectral peaks and equidistant pulse sequences.These findings facilitate the development of high-performance multi-wavelength ultrashort pulse sources,crucial for optical communications,spectral analysis,and remote sensing. 展开更多
关键词 synchronized mode-locked fiber laser multi-wavelength pulses dual-cavity
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Magnetic pulse welding of Al-5754 with Al-7075 and MARS 380:Weldability windows and ballistic testing
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作者 Benoit Lagain Thomas Heuzé +1 位作者 Guillaume Racineux Michel Arrigoni 《Defence Technology(防务技术)》 2026年第1期64-79,共16页
Joining dissimilar materials encounters significant engineering challenges due to the contrast in material properties that makes conventional welding not feasible.Magnetic Pulse Welding(MPW)offers a solidstate joining... Joining dissimilar materials encounters significant engineering challenges due to the contrast in material properties that makes conventional welding not feasible.Magnetic Pulse Welding(MPW)offers a solidstate joining technique that overcomes these issues by using impact to create strong bonds without melting the substrate materials.This study investigates the weldability of aluminum alloy Al-5754 with Al-7075 and MARS 380 steel,used in armouring solutions of defense systems,by the use of MPW.In this work,weldability windows are investigated by varying standoff distances between the coating material and its substrate(0.25-4.5 mm)and discharge energies(5-13 kJ)with both O-shape and U-shape inductors.Mechanical strength of the welded joints were assessed through single lap shear tests,identifying optimal welding parameters.Then,the velocity profiles of the flyer plates were measured using heterodyne velocimetry to understand the dynamics of the impact.Then,substructures assembled with the optimal welding conditions were subjected to ballistic testing using 7.62 mm×51 mm NATO and 9 mm×19 mm Parabellum munitions to evaluate the resilience of the welds under ballistic impact.The outcomes demonstrate that MPW effectively joins Al-5754 with both Al-7075 and MARS 380,producing robust welds capable of withstanding ballistic impacts under certain conditions.This research advances the application of MPW in lightweight ballistic protection of defense systems,contributing to the development of more resilient and lighter protective structures. 展开更多
关键词 Magnetic pulse welding(MPW) Dissimilar material joining Weldability windows Impact welding Ballistic testing
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Vacuum Consistent Electrochemistry in Ionic Liquid Combined with Oxide Epitaxy
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作者 Yuji Matsumoto 《电化学(中英文)》 北大核心 2025年第6期19-37,共19页
We introduce our state-of-the art of“vacuum consistent electrochemistry”to an investigation of the interfaces between oxides and ionic liquid(IL).Pulsed laser deposition(PLD)has been one of the powerful and sophisti... We introduce our state-of-the art of“vacuum consistent electrochemistry”to an investigation of the interfaces between oxides and ionic liquid(IL).Pulsed laser deposition(PLD)has been one of the powerful and sophisticated techniques to realize nanoscale preparation of high-quality epitaxial oxide thin films.On the other hand,electrochemistry is a simple,very sensitive,and non-destructive analysis technique for solid-liquid interfaces.To ensure the reproducibility in experiment of the interfaces of such epitaxial oxide films,as well as bulk oxide single-crystals,with IL,we employ a home-built PLD-electrochemical(EC)system with IL as an electrolyte.The system allows one to perform all-in-vacuum experiments during the preparation of well-defined oxide electrode surfaces to their electrochemical analyses.The topics include electrochemical evaluations of the oxide’s own properties,such as carrier density and relative permittivity,and the interfacial properties of oxides in contact with IL,such as flat band potential and electric double layer(EDL)capacitance,ending with future perspectives in all-solid-state electrochemistry. 展开更多
关键词 Vacuum electrochemistry Oxide epitaxy Electric double layer Ionic liquids pulsed laser deposition
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A compact high flux polarized neutron beam generator
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作者 Jun Yuan Tengfei Ma +2 位作者 Jing Pan Jie Zhang Cheng Zhang 《Defence Technology(防务技术)》 2025年第7期437-446,共10页
This paper introduced a compact high flux polarized neutron beam generator scheme,which used air as the working medium and had low energy consumption.The neutron beam generator adopted a linear three compartment confi... This paper introduced a compact high flux polarized neutron beam generator scheme,which used air as the working medium and had low energy consumption.The neutron beam generator adopted a linear three compartment configuration,sequentially using nitrogen nucleus tandem near range accelerated polarization target spallation nuclear reaction technology,neutron multiplication technology,neutron beam polarization and near range acceleration technology,neutron focusing and shooting control technology.Through design and equivalent verification,it has been proven that the total length of the device does not exceed 5 m,the effective range can reach several hundred kilometers,the neutron flux at the muzzle is not less than 10^(25) n·cm^(-2)·s^(-1),which attenuates to 10^(10) n·cm^(-2)·s^(-1) at a distance of several 100 km,and this flux can effectively strike the target.It can be used as a defensive directed energy weapon with high energy density and has broad application prospects. 展开更多
关键词 High flux neutron beam DEFENSE Neutron polarization Neutron acceleration Strong magnetic field pulsed power technology
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Impact attenuation mechanism of single/double-layer potting structures of MEMS devices under continuous double-pulse impact 被引量:1
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作者 Hao'nan Guo Yunbo Shi +4 位作者 Rui Zhao Yu'nan Chen Peng Zhang Liang Chen Tao Guo 《Defence Technology(防务技术)》 2025年第6期104-114,共11页
High-overload shocks are very likely to cause damage to the microstructure of MEMS devices, especially the continuous multiple high-overload shocks generated by the penetration of the multilayer target environment pos... High-overload shocks are very likely to cause damage to the microstructure of MEMS devices, especially the continuous multiple high-overload shocks generated by the penetration of the multilayer target environment pose more stringent challenges to its protective structure. In this study, the kinetic response model of the protective structure under single-pulse and continuous double-pulse impact is established,and a continuous double-pulse high overload impact test impact platform based on the sleeve-type bullet is constructed, and the protective performance of the multi-layer structure under multi-pulse is analyzed based on the acceleration decay ratio, and the results show that the protective performance of the structure has a positive correlation with its thickness, and it is not sensitive to the change of the load of the first impact;the first impact under double-pulse impact will cause damage to the microstructure through the superposition of the second impact. The first impact under double-pulse impact will cause an increase in the overload amplitude of the second impact through superposition;compared with the single-layer structure, the acceleration attenuation ratio of the double-layer structure can be increased by up to 26.13%, among which the epoxy-polyurethane combination has the best protection performance, with an acceleration attenuation ratio of up to 44.68%. This work provides a robust theoretical foundation and experimental basis for the reliable operation of MEMS devices, as well as for the design of protective structures in extreme environments. 展开更多
关键词 Continuous double pulse Protective structure Attenuation ratio MEMS devices
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New Insights into Controlling the Functional Properties of Tin Oxide-Based Materials
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作者 Alexandra Kuriganova Nina Smirnova 《电化学(中英文)》 北大核心 2025年第1期41-56,共16页
Development of methodologies for fabrications of nanostructured materials that provide control over their microstructural features and compositions represents a fundamental step in the advancement of technologies for ... Development of methodologies for fabrications of nanostructured materials that provide control over their microstructural features and compositions represents a fundamental step in the advancement of technologies for productions of materials with well-defined functional properties.Pulse electrolysis,a top-down electrochemical approach,has been demonstrated to be a viable method for producing nanostructured materials with a particular efficacy in the synthesis of tin oxides.This method allows for significant control over the composition and shape of the resulting tin oxides particles by modifying the anionic composition of the aqueous electrolyte,obviating the need for additional capping agents in the synthesis process and eliminating the requirement for high-temperature post-treatments.The composition and microstructural characteristics of these oxides are found to be contingent upon the differing stabilities of tin fluoride and chloride complexes,as well as the distinct mechanisms of interaction between chloride and fluoride anions with an oxidized tin surface,which is influenced by the varying kosmotropic/chaotropic nature of these anions.The composition and microstructural characteristics of the obtained dispersed tin oxides would thus determine their potential applications as an anode material for lithium-ion batteries,as a photocatalyst,or as an oxyphilic component of a hybrid support for a platinum-containing electrocatalyst. 展开更多
关键词 Tin oxide Pulse electrolysis Lithium-ion battery PHOTOCATALYSIS Fuel cell
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