化学蚀刻304不锈钢表面结构研究  被引量:3

Surface Structure Studies on 304 Stainless Steel after Chemical Etching

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作  者:张永成[1] 卢建树[1] 

机构地区:[1]浙江工业大学材料化学实验,杭州310014

出  处:《表面技术》2015年第1期122-126,共5页Surface Technology

摘  要:目的研究化学蚀刻304不锈钢表面结构类型、形成过程及其应用。方法以304不锈钢为对象,以FeCl3系溶液为蚀刻剂,采用化学蚀刻的工艺,通过表面分析和SEM等手段,研究化学蚀刻的过程以及表面结构的类型。结果在40℃常压下,250 g/L FeCl3中使304不锈钢表面光滑的盐酸用量(y)与硝酸用量(x)满足一定的关系:y=19.37+0.13x±0.5,x≤120 m L/L;y=-8.67+0.62x±0.5,x≥130 ml/L。溶液中Cl-含量是影响蚀刻后不锈钢表面的平整度的主要因素。结论改变蚀刻溶液性质可以改变蚀刻后304不锈钢表面形成的结构。Objective To investigate the structure type, formation process and applications of 304 stainless steel after chemical etching. Methods The etching rule of 304 stainless steel was found by chemical etching in etching agent of FeCl3 solutions. The types of the surface structure and the forming process were studied by surface analysis and SEM. Results The law was in line with the following equation about the hydrochloric acid dosage ( y) to smoothen the surface of 304 stainless steel along with the changes in nitric acid concentration(x):y=19. 37+0. 13x±0. 5, x≤120 mL/L; y=-8. 67+0. 62x±0. 5, x≥130 mL/L. The content of Cl- in etching solution was the major influencing factor for the surface roughness of the stainless steel after etching. Conclusion Changing the solution property could alter the surface structure of 304 stainless steel after etching.

关 键 词:304不锈钢 化学蚀刻 表面结构 

分 类 号:TG176[金属学及工艺—金属表面处理]

 

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