功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
15期
2111-2115,2120
,共6页
何汉兵%刘锌%宋云锋%肖汉宁
何漢兵%劉鋅%宋雲鋒%肖漢寧
하한병%류자%송운봉%초한저
20Ni-80Cu%包覆%NiFe2O4尖晶石%金属陶瓷惰性阳极%铝电解
20Ni-80Cu%包覆%NiFe2O4尖晶石%金屬陶瓷惰性暘極%鋁電解
20Ni-80Cu%포복%NiFe2O4첨정석%금속도자타성양겁%려전해
20Ni-80Cu%coated%NiFe204 spinel%cermet inert anode%aluminum electrolysis
金属陶瓷金属相优先腐蚀是目前惰性阳极工业化难点之一,在金属相表面包覆NiFe2O4尖晶石来提高其耐高温熔盐腐蚀性能。包覆实验结果显示,包覆后的颗粒尺寸为2-5μm,且有团聚现象,金属相20Ni-80Cu表面除形成NiFe2O4尖晶石外,可能还含有NiFe2O4-x、Cu2O、NiO、CuxNi1-x、NiyFe1-yFe2O4-a和NizFe1-zO。腐蚀实验表明,金属表面包覆10%、20%、30%、40%和50%NiFe2O4尖晶石后制备的金属陶瓷惰性阳极样品其金属腐蚀层厚度都在20~50μm,其年腐蚀率分别为1.89、1.73、1.65、1.58和2.03cm/a,未包覆金属陶瓷惰性阳极金属腐蚀层厚度为200μm和年腐蚀率为4.15cm/a,说明金属表面包覆NiFe2O4尖晶石能提高惰性阳极的抗熔盐腐蚀性能。
金屬陶瓷金屬相優先腐蝕是目前惰性暘極工業化難點之一,在金屬相錶麵包覆NiFe2O4尖晶石來提高其耐高溫鎔鹽腐蝕性能。包覆實驗結果顯示,包覆後的顆粒呎吋為2-5μm,且有糰聚現象,金屬相20Ni-80Cu錶麵除形成NiFe2O4尖晶石外,可能還含有NiFe2O4-x、Cu2O、NiO、CuxNi1-x、NiyFe1-yFe2O4-a和NizFe1-zO。腐蝕實驗錶明,金屬錶麵包覆10%、20%、30%、40%和50%NiFe2O4尖晶石後製備的金屬陶瓷惰性暘極樣品其金屬腐蝕層厚度都在20~50μm,其年腐蝕率分彆為1.89、1.73、1.65、1.58和2.03cm/a,未包覆金屬陶瓷惰性暘極金屬腐蝕層厚度為200μm和年腐蝕率為4.15cm/a,說明金屬錶麵包覆NiFe2O4尖晶石能提高惰性暘極的抗鎔鹽腐蝕性能。
금속도자금속상우선부식시목전타성양겁공업화난점지일,재금속상표면포복NiFe2O4첨정석래제고기내고온용염부식성능。포복실험결과현시,포복후적과립척촌위2-5μm,차유단취현상,금속상20Ni-80Cu표면제형성NiFe2O4첨정석외,가능환함유NiFe2O4-x、Cu2O、NiO、CuxNi1-x、NiyFe1-yFe2O4-a화NizFe1-zO。부식실험표명,금속표면포복10%、20%、30%、40%화50%NiFe2O4첨정석후제비적금속도자타성양겁양품기금속부식층후도도재20~50μm,기년부식솔분별위1.89、1.73、1.65、1.58화2.03cm/a,미포복금속도자타성양겁금속부식층후도위200μm화년부식솔위4.15cm/a,설명금속표면포복NiFe2O4첨정석능제고타성양겁적항용염부식성능。
Preferential corrosion of metal phase in cermet inert anode is one of industralization problem, and in order to improve its corrosion resistance to high temperature melt salt electrolyte, NiFe2O4 spinel was coated in the surface of metal phase. Coating experiment result showed that particle size of metal phase after coated is 2- 5μm,and agglomeration phenomenon happened. Besides NiFe2O4 spinel was formed in the surface of metal phase, NiFe2O4-x, CueO7, NiO, Cu. Nil-x, NisFe1-yFe2O4-a and NixFel-x,O were possible found. Moreover, corrosion experiment results indicated that when coating content was 10%,20% ,30%,40% and 50%, respectively, annual wear rate was 1.89,1.73,1.65,1.58 and 2.03cm/a, respectively, and the thickness of metal corrosion layer are all 20-50μm. However, the thickness of metal corrosion layer without coated NiFezO4 spinel was 200ttm and annual wear rate was 4.15cm/a. Thus corrosion resistance to high temperature melt salt elec- trolyte can be improved through coating NiFe2 04 spinel in the surface of metal phase 20Ni-80Cu.
