1) Ni-B foil
镍硼箔膜
1.
In this paper, electroless technology had been used to coating Cu,Ni-B on the surface of plastic matrix first, and then to dissolve matrix plastics in solvent to get Ni-B foil.
本课题利用化学镀技术在塑料基体上镀铜、镀镍硼,然后将基体塑料溶解得到镍硼箔膜。
2) nickel foil
镍箔
1.
The titanium alloy TA17 and stainless steel 0Cr18Ni9Ti were bonded by using impact pressuring diffusion bonding(IPDB) with pure nickel foil as an interlayer, and the tensile strength of bonding joint was tested.
采用纯镍箔作中间过渡层,在脉冲加压扩散连接工艺下,对TA17钛合金与0Cr18Ni9Ti不锈钢进行了连接试验,并测定了接头的拉伸强度。
2.
The process conditions in the electrodeposition of nickel foil were studied.
研究了电沉积法制取镍箔的实验条件,并对不同条件下得到的镍箔表面、断面SEM形貌以及抗拉强度进行了分析。
3.
The technology of industrial nickel foils production is researched in the present paper.
实践表明:工艺稳定,设备结构合理,产出的宽幅薄镍箔厚度均匀、纯度高、机械性能和表面性能良
3) Ni-B
镍-硼
4) comprehensive dehydrogenation
镍箔脱氢
5) iron-nickel alloy foil
铁-镍合金箔
6) nickel boride
硼化镍
1.
The results show that the nickel boride generated from NiCl2·6H2O reacting with boron-based reducing reagent have higher desulfurization performance for the thiophene-type compounds,and using them with 0.
实验对不同金属硼化物、镍源对硼化镍的活性影响以及还原剂用量进行了评价。
2.
In this work, nano-sized nickel borides powders were prepared by both methods of the solvo-thermal synthesis and the chemical reduction reaction for the comparable investigation.
本工作根据文献报道总结了溶剂在合成过程中的作用,并通过对不同条件下合成纳米硼化镍的实验研究,对溶剂热反应中溶剂的作用进行了分析。
3.
In order to find a simple and easy preparation method of nickel boride nanowires,the chemical metathesis using NiCl2 and NaBH4 as reactants was used.
为了寻找简单易操作的方法合成硼化镍纳米线,以氯化镍和硼氢化钠为原料,通过化学交换法进行制备,将反应后得到的产物用X射线衍射仪、透射电子显微镜及多功能表面分析仪等进行了表征。
补充资料:箔条干扰火箭(见箔条投放装置)
箔条干扰火箭(见箔条投放装置)
chaff jamming rocket
botiao gQnrao huolian箔条干扰火箭(eha拜Jamming:ocket)见箔条投放装置。
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