表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2015年
8期
97-102
,共6页
安成强%安恺%郝建军%魏娟
安成彊%安愷%郝建軍%魏娟
안성강%안개%학건군%위연
冷轧板%表面防锈%闪镀镍%耐蚀性能
冷軋闆%錶麵防鏽%閃鍍鎳%耐蝕性能
랭알판%표면방수%섬도얼%내식성능
cold rolled plate%anti-corrosion of the surface%pre-plating Ni%corrosion resistance
目的:提供一种提高冷轧板(普冷板)表面耐蚀性的新方法。方法在冷轧板表面闪镀镍。利用扫描电镜观察表面形貌,利用EDS能谱测定表面沉积的镍元素含量,测试Tafel极化曲线和交流阻抗谱,研究闪镀镍对冷轧板表面状态和电化学性能的影响。采用点滴实验和湿热实验评价冷轧板表面的耐蚀性能。结果当闪镀温度为45~55℃,电流密度为3~6 A/dm2,闪镀时间为15~20 s时,沉积到基板表面的镍元素原子数分数达到40.1%以上。此时,冷轧板表面的点滴变色时间明显延长,在潮湿条件下的锈蚀面积明显减少。电化学测试也发现在冷轧板表面闪镀镍后,表面腐蚀电流明显降低,交流阻抗弧变大。结论闪镀镍可以改变冷轧板的表面状态和电化学性能,使冷轧板的表面活性和腐蚀倾向有所降低,从而提高冷轧板表面的耐蚀性能。该研究为冷轧板存储、运输、使用过程中的防锈提供了一种新方法,且方法简单有效、环保、实用。
目的:提供一種提高冷軋闆(普冷闆)錶麵耐蝕性的新方法。方法在冷軋闆錶麵閃鍍鎳。利用掃描電鏡觀察錶麵形貌,利用EDS能譜測定錶麵沉積的鎳元素含量,測試Tafel極化麯線和交流阻抗譜,研究閃鍍鎳對冷軋闆錶麵狀態和電化學性能的影響。採用點滴實驗和濕熱實驗評價冷軋闆錶麵的耐蝕性能。結果噹閃鍍溫度為45~55℃,電流密度為3~6 A/dm2,閃鍍時間為15~20 s時,沉積到基闆錶麵的鎳元素原子數分數達到40.1%以上。此時,冷軋闆錶麵的點滴變色時間明顯延長,在潮濕條件下的鏽蝕麵積明顯減少。電化學測試也髮現在冷軋闆錶麵閃鍍鎳後,錶麵腐蝕電流明顯降低,交流阻抗弧變大。結論閃鍍鎳可以改變冷軋闆的錶麵狀態和電化學性能,使冷軋闆的錶麵活性和腐蝕傾嚮有所降低,從而提高冷軋闆錶麵的耐蝕性能。該研究為冷軋闆存儲、運輸、使用過程中的防鏽提供瞭一種新方法,且方法簡單有效、環保、實用。
목적:제공일충제고랭알판(보랭판)표면내식성적신방법。방법재랭알판표면섬도얼。이용소묘전경관찰표면형모,이용EDS능보측정표면침적적얼원소함량,측시Tafel겁화곡선화교류조항보,연구섬도얼대랭알판표면상태화전화학성능적영향。채용점적실험화습열실험평개랭알판표면적내식성능。결과당섬도온도위45~55℃,전류밀도위3~6 A/dm2,섬도시간위15~20 s시,침적도기판표면적얼원소원자수분수체도40.1%이상。차시,랭알판표면적점적변색시간명현연장,재조습조건하적수식면적명현감소。전화학측시야발현재랭알판표면섬도얼후,표면부식전류명현강저,교류조항호변대。결론섬도얼가이개변랭알판적표면상태화전화학성능,사랭알판적표면활성화부식경향유소강저,종이제고랭알판표면적내식성능。해연구위랭알판존저、운수、사용과정중적방수제공료일충신방법,차방법간단유효、배보、실용。
ABSTRACT:Objective To provide a new way to improve the corrosion resistance of cold rolled plate. Methods The pre-plating Ni was used on the surface of cold rolled plate. The surface properties and electrochemical performance of the cold rolled plate were studied by scanning electron microscope ( SEM) , electrochemical methods, and energy dispersive spectrum analysis. The corrosion resistance of cold rolled plate was studied by damp heat test and spot test. Results The nickel content of substrate surface was over 40. 1% under conditions of temperature 45~55 ℃, current density 3~6 A/dm2 and electroplating time 15~20 s. The time of CuSO4 dropping corrosion test was significantly increased and the corrosion area was reduced. Electrochemical test showed that the properties was significantly improved. The corrosion resistance of cold rolled plate was remarkably enhanced. Conclusion Flash nickel plating could change the surface state and electrochemical properties of cold rolled plate. Surface activity and corrosion tend-ency were reduced. The corrosion resistance was greatly improved. This method might provide a new technique for the storage, transportation and use process of cold rolled plate, which is simple, effective, environment friendly and practical.
