Results 21 to 30 of about 1,232,259 (167)

Ultrahigh‐Strength Soft‐Magnetic NiFeCoAl Multi‐Principal Element Alloys Enabled by Multiscale Heterostructure Design

open access: yesRare Metals, Volume 45, Issue 4, April 2026.
ABSTRACT Soft‐magnetic materials (SMMs) are indispensable for electrification and sustainable energy systems, yet their inherent mechanical fragility fundamentally limits applications under severe mechanical stresses. Enhancing the yield strength of SMMs is essential to prevent the degradation in magnetic performance and failure from plastic ...
Nairan Wang   +6 more
wiley   +1 more source

220kV复合绝缘子机电性能试验研究

open access: yesGaoya dianqi, 2008
复合绝缘子的电气及机械性能是复合绝缘子能够长期可靠运行的保证。笔者抽取了11支在东北地区挂网运行不同时间的220 kV复合绝缘子,利用工频试验变压器、冲击电压发生器和机械拉力机分别进行了自然污秽闪络、人工污秽闪络、50%雷电冲击闪络、50%机械负荷耐受和机械破坏负荷等性能测试。结果表明:复合绝缘子的电气性能仍然处于较高水平,污闪电压和雷电冲击闪络电压与运行时间没有明显关系,与绝缘子结构高度成正比关系,早期楔式结构的复合绝缘子机械性能下降明显,且160 kN吨位复合绝缘子机械强度降至额定负荷以下 ...
王建国   +5 more
doaj  

A Multifunctional MXene/CNF/PVB Fabric via Layer‐by‐Layer Construction for Electromagnetic Interference Shielding, Joule Heating, and Infrared Stealth

open access: yesRare Metals, Volume 45, Issue 4, April 2026.
ABSTRACT The rapid advancement of 5G communication technology has intensified electromagnetic pollution, creating an urgent demand for flexible multifunctional fabrics with efficient electromagnetic interference (EMI) shielding performance. This study proposes a novel material‐stacked construction strategy to fabricate multifunctional MXene/cellulose ...
Zong‐Kai Yan   +9 more
wiley   +1 more source

智能化高压开关机械试验测试用位移传感器的分析与研究

open access: yesGaoya dianqi, 2013
笔者在分析传统高压开关设备与智能化高压开关设备各自不同特征的基础上,结合国家电网智能高压开关试验指导意见及GB 1984—2003关于高压开关机械性能试验要求,分析了智能化高压开关机械特性测试用传感器选型、安装位置、安装方法等对特性测试结果的影响。分析结果表明,为准确测量高压开关机械性能参数,传感器应安装于断路器能够准确反应触头运动特性位置。为了便于智能高压断路器在进行机械性能的型式试验考核,应考虑数字式位移传感器的接口协议如何与测试系统相匹配。
贾一凡   +6 more
doaj  

干式套管芯体复合材料的机械损伤性能研究

open access: yesDianci bileiqi, 2023
胶浸纸干式套管具有无油、防爆、电气特性稳定等优点,在变压器、电抗器、阀厅穿墙等场景使用广泛,是高压电器的重要组成部件。电容芯体是套管主绝缘部件,芯体复合材料的微观损伤最终将可能导致设备发生机械和电气方面的故障,因此对于干式套管芯体复合材料损伤性能的研究具有重要的意义。本研究为准确反映芯体复合材料在干式套管中的实际性能,从干式套管芯体上直接取样,并对其机械损伤性能进行了测试研究,得出微观损伤和宏观破坏值之间的关系。实验中分别采用万用电子拉力机、声发射技术 ...
张晋寅   +7 more
doaj  

Hybrid Flame‐Assisted Plasma‐Enhanced Chemical Vapor Deposition Strategy for Scalable and Structurally Tunable ZrO2 Thin Films

open access: yesRare Metals, Volume 45, Issue 4, April 2026.
ABSTRACT Zirconium dioxide (ZrO2) thin films are critical materials owing to their thermal stability, mechanical durability, and optical transparency enabling applications in photonic, sensing, and electronic devices. However, achieving uniform deposition via plasma‐enhanced chemical vapor deposition (PE‐CVD) has remained challenging due to poor ...
Nour Manafikhi   +4 more
wiley   +1 more source

用热机─密封试验检验有机外套无间隙金属氧化物避雷器的机械和密封性能

open access: yesDianci bileiqi, 1996
有机外套无间隙金属氧化物避雷器的外套材料、整体结构和制作工艺与MOA明显不同,其机械负荷试验和密封性能试验的方法也应区别于MOA。提出用热机─密封试验检验有机外套无间隙金属氧化物避雷器的机械和密封性能,从而免做机械负荷试验和密封性能试验的观点,并指出这是合理而简便的。
车文俊
doaj  

Pre‐Formation of LiF‐Rich Interfaces on Prelithiated Si/C Anodes for High‐Energy Lithium‐Ion Batteries

open access: yesRare Metals, Volume 45, Issue 4, April 2026.
ABSTRACT Prelithiation is effective for compensating active lithium‐ion (Li+) loss in silicon (Si)‐based battery electrode materials. However, owing to the dynamic growth of the solid electrolyte interface (SEI), capacity fading remains the biggest challenge for the industrialization of Si electrodes.
Wen‐Jie He   +9 more
wiley   +1 more source

运行棒形悬式复合绝缘子机械性能

open access: yesDianci bileiqi, 2018
复合绝缘子机械性能对电网安全运行至关重要。本文报道了广东地区、东北地区共计76支运行复合绝缘子3种金具连接方式的机械性能情况,结合试验结果阐述了3种主要端部连接方式下复合绝缘子的破坏形式及机械强度,对早期运行复合绝缘子的机械性能进行评价,结果表明:抽检复合绝缘子的芯棒表面有不同程度的裂痕;不同端部连接形式的复合绝缘子,其主要破坏形式不同,内楔式主要破坏形式是球头拉断、芯棒拉断和芯棒损坏,对应所占比例为44%、44%和12%,外楔式主要破坏形式是芯棒拉断、球头拉断、芯棒拉脱和芯棒损坏,对应所占比例为45%、
王康   +5 more
doaj  

环氧绝缘材料电气及机械性能对电痕特性的影响

open access: yesGaoya dianqi, 2020
为提高材料耐电痕性能,研究环氧绝缘材料电气及机械性能对电痕特性的影响,建立环氧绝缘材料电气、机械性能与电痕破坏的关系,文中制备3种掺杂不同含量微米二氧化硅(SiO2)的环氧树脂复合材料,按IEC 60587—1984试验规程进行电痕试验并测试环氧树脂表面接触角,体积电阻率等电气性能及冲击强度等机械性能。结果表明:随着微米掺杂含量提高,环氧材料耐电痕特性变差,体积电阻率及弯曲强度先减小后增大,表面电阻率先增大后减小,介电强度减小,冲击强度及拉伸强度增大 ...
杨玲   +6 more
doaj  

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