1) vacuum magnetic heat treatment
真空磁场热处理
1.
Study on Fe-Co magnetically soft alloy vacuum magnetic heat treatment process;
Fe-Co软磁合金真空磁场热处理工艺研究
2) magnetic field heat treatment
磁场热处理
1.
Research on high vacuum magnetic field heat treatment furnace and its temperature controller;
高真空磁场热处理装置及其温度控制器的设计与研制
2.
The results show that iron-rich amorphous alloy with high saturation magnetic induction can be made constant permeable core without air-gap through a simple transverse magnetic field heat treatment and the core exhibits good magnetic characteristics.
结果表明,通过简单的横向磁场热处理工艺,可将具有高饱和磁感应强度的Fe基非晶合金制成无间隙的恒导磁磁芯,并且具有良好的综合磁特性。
3.
The effects of magnetic field on heat conduction of ferritic and pearlitic steels in the magnetic field heat treatment were studied.
观察、分析了在磁场热处理条件下磁场对传热的作用。
3) Magnetic heat treatment
磁场热处理
1.
The effects of magnetic field direction, cooling mode and annealing temperature in the magnetic heat treatment on magnetostriction of <110> -oriented Tb0.
95多晶合金磁场热处理中磁场施加方向、冷却方式以及温度等参数对其磁致伸缩性能的影响。
2.
The effects of transverse magnetic heat treatment on the magnetic properties of Fe-based amorphous alloy with high saturation magnetic induction were investigated.
用真空感应炉在氩气保护下熔炼成母合金,再采用单辊快淬法制备成分为Fe63Co21Si2B14的非晶合金薄带,卷绕成铁芯后在不同温度下进行横向磁场热处理。
4) vacuum heat-treatment
真空热处理
1.
TiB_2-containing nano-microstructured feedstock was prepared by spray-drying and vacuum heat-treatment.
采用喷雾干燥造粒技术和真空热处理工艺制备了TiB2纳微米结构喂料,用激光粒度仪、扫描电镜、X射线衍射等分析纳微米结构喂料的物理性能和物相组成。
2.
Introduces the performance, construction and features of the newly developed multi-oven continuous vacuum furnace and its applications, including vacuum sintering of materials for powder metallurgy, vacuum heat-treatment of metals, vacuum sealing/outgassing, etc.
介绍了多室连续式真空炉的性能、结构、特点以及在真空钎焊、粉末冶金材料真空烧结、金属材料真空热处理、电子器件与不锈钢保温容器的真空排气与封接等领域的应用及现状。
3.
The corrosion resistance of uranium surface overlaid with graphite after vacuum heat-treatment was studied making use of weight gain method and electrochemical method.
为了探讨石墨涂层铀表面经真空热处理后对铀抗蚀性能的影响,通过增重法和电化学方法研究了处理样在100℃和150℃、含有一定量O2和H2O(g)气氛中的抗氧化腐蚀性和50μg/g C l-溶液中的抗化学介质腐蚀性。
5) vacuum heat treatment
真空热处理
1.
Effect of vacuum heat treatment on visible light photocatalytic activity of nano-TiO_(2-x);
真空热处理对纳米TiO_(2-x)可见光催化的影响
2.
Effect of vacuum heat treatment on microstructure and elements diffusion behavior of NiCrAlY coating on Ti6Al4V;
真空热处理对Ti6Al4V基体/NiCrAlY涂层体系组织结构及元素扩散行为的影响
3.
Effects of Vacuum Heat Treatment on Ceramic Coating Layer Behavior;
真空热处理对陶瓷涂层性能的影响
6) vacuum heat treatment furnace
真空热处理炉
1.
In order to analyze the temperature field of workpieces in the vacuum heat treatment furnace,a 3-D numerical model taking the whole furnace and workpieces as one investigation object was developed.
为了分析真空热处理炉内加热工件的温度场,将包括工件在内的整个真空热处理炉作为模拟对象建立了一个三维的数值模型。
2.
The embedded control system of vacuum heat treatment furnace based on ARM7 microprocessor and μC/OS-Ⅱ operating system is introduced in this paper.
介绍了作者研发的基于 ARM7微处理器和μC/OS-Ⅱ操作系统的嵌入式真空热处理炉控制系统。
补充资料:磁场热处理
磁性材料在其居里温度附近进行的退火过程中,加一外磁场,使材料内部感生一单轴各向异性,从而改善磁性的工艺。通常在磁场中由居里点以下温度缓冷(如以10~20℃/min速度冷却)也可产生同样效应。由磁场处理产生的这种感生各向异性在室温下是稳定的,但重新加热就会被破坏。磁场热处理可使磁滞回线呈矩形,磁导率增大,矫顽力降低。如65Ni-Fe合金经磁场热处理产生磁织构后,磁滞回线为矩形;而进行一般退火时,磁滞回线则呈蜂腰状。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条