1) Fe-Cr-base alloy
Fe-Cr基合金
2) Fe-Cr-Al based alloy
Fe-Cr-Al基合金
3) Fe Cr based damping alloy
Fe-Cr基减振合金
4) Fe-Cr alloy
Fe-Cr合金
1.
Thermogravimetric studies have been conducted on the corrosion behavior of Fe-Cr alloyscoated with NaCl deposit in air colltaining Water vaPor at 600 t.
用热重分析法研究了在600℃表面未涂或涂有NaCl膜的情况下,Fe-Cr合金在空气或空气+水蒸气中的腐蚀行为。
2.
Based on the study of the properties of several laterally-welded bimetal spring laminations and arc zones, it has been found that Fe-Cr alloy can be used to replace Ni50 alloy as a low expansion componenet in a laterally-welded bimetal spring lamination due to its similar performance.
本文结合用户对产品的需求,在对多种横拼双金属焊带及弹簧片的温度补偿性能进行研究后,采用Fe-Cr合金替代Ni50合金作为低膨胀组元,制作低补偿量横拼双金属弹簧片,其性能与Ni50型横拼双金属弹簧片相当,产品已通过了用户单位的五步认定,成功用于生产性装管。
3.
Fe-Cr alloys with two different Cr content,9% Cr and 19% Cr,were shot blasted and then oxidized at 600℃~770℃ in water vapor.
研究了表面处理喷丸对Cr含量为9 mass%和19 mass%的Fe-Cr合金在通过600℃~770℃温度区间高温水蒸气氧化行为的影响。
5) Cr-Fe alloy
Cr-Fe合金
1.
The electrodepositing Cr-Fe alloy coating was studied in the chloride system of trivalent chromium and bivalent iron.
本文研究了从三价铬和二价铁的氯化物体系中电沉积Cr-Fe合金镀层,利用该工艺获得了较好的Cr-Fe合金镀层。
6) Fe-Ni-Cr alloy
Fe-Ni-Cr合金
1.
Electrochemical behaviors of electrodepositing Fe2+,Ni2+,Cr3+ solely and Fe-Ni-Cr alloy have been studied by linear potential scan and cyclic voltammetry and the alloy plating were characterized by means of SEM and XRD in this study.
利用线性电势扫描法和循环伏安法分别讨论了配位剂对Fe2+、Ni2+、Cr3+单独电沉积和Fe-Ni-Cr合金共沉积电化学行为的影响,并采用SEM和XRD技术对合金镀层表面形貌和结构进行了表征。
2.
Fe-Ni-Cr alloy electrodepositing experiment on iron substrate in chlorid-sulfate solution by barrel plating was performed.
在氯化物-硫酸盐混合体系中,在铁基上进行滚镀Fe-Ni-Cr合金实验,结果表明:滚镀所得的Fe-Ni-Cr合金镀层铬的含量只有2%左右,难以提高,且镀层表面质量不佳,常出现滚桶眼子印现象。
3.
The progress of Fe-Ni-Cr alloy plating is summarized.
概述电镀Fe-Ni-Cr合金的发展进程,从电沉积Fe-Ni-Cr合金的基本条件、镀液体系、电镀的类型以及镀层晶体结构类型等几个方面对电镀Fe-Ni-Cr合金的特点进行阐述。
补充资料:Au-Pd-Cr-Pt-Fe-Al-Y alloys
分子式:
CAS号:
性质:金基与钯、铬、铂、铁、铝和钇的多元合金,电阻系数最高。生产方法参见金钯铬合金。可用作高温应变材料。
CAS号:
性质:金基与钯、铬、铂、铁、铝和钇的多元合金,电阻系数最高。生产方法参见金钯铬合金。可用作高温应变材料。
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