[1]郝江华,高晓颖*,王浩军,等.不同钢铁表面无氰镀镉钛和氰化镀镉钛镀层性能差异[J].电镀与精饰,2024,(4):59-65.[doi:10.3969/j.issn.1001-3849.2024.04.009]
 Hao Jianghua,Gao Xiaoying*,Wang Haojun,et al.Differences in performance between cyanide free cadmium titanium plating and cyanide plated cadmium titanium plating on different steel surfaces[J].Plating & Finishing,2024,(4):59-65.[doi:10.3969/j.issn.1001-3849.2024.04.009]
点击复制

不同钢铁表面无氰镀镉钛和氰化镀镉钛镀层性能差异
()

《电镀与精饰》[ISSN:1001-3849/CN:12-1096/TG]

卷:
期数:
2024年4
页码:
59-65
栏目:
出版日期:
2024-04-01

文章信息/Info

Title:
Differences in performance between cyanide free cadmium titanium plating and cyanide plated cadmium titanium plating on different steel surfaces
作者:
(1.中航西安飞机工业集团股份有限公司,陕西 西安 710089; 2.中国航发北京航空材料研究院 航空材料先进腐蚀与防护航空科技重点实验室,北京 100095)
Author(s):
(1.AVIC Xi’an Aircraft Industry Group Company Ltd.,Xi’an 710089, China; 2.Aviation Key
Laboratory of Science and Technology on Advanced Corrosion and Protection for Aviation Material,Beijing Institute of Aeronautical Materials,Surface Engineering Institution,Beijing 100095,China)
关键词:
电镀镉钛疲劳氢脆拉伸性能
Keywords:
cadmium titanium plating fatigue hydrogen embrittlement tensile property
分类号:
TQ153.2
DOI:
10.3969/j.issn.1001-3849.2024.04.009
文献标志码:
A
摘要:
在不同钢铁基体表面进行无氰镀镉钛和氰化镀镉钛,对比不同钢铁基体表面两种工艺的镀层氢脆性能、疲劳性能和拉伸性能。结果表明: 300M 钢和 4340 钢进行无氰镀镉钛和氰化镀镉钛后的氢脆性能差异不明显。 300M 钢和 50CrVA 钢进行无氰镀镉钛和氰化镀镉钛后,疲劳性能有较小的变化。 50CrVA 钢进行无氰镀镉钛后疲劳极限相比裸材降低了 1.5% ,进行氰化镀镉钛后疲劳极限相比裸材提高了 5.0% ; 300M 钢进行无氰镀镉钛后疲劳极限相比于裸材增加了 3% ;进行氰化镀镉钛后疲劳极限相比于裸材降低了 7% 。无氰电镀镉钛对 300M 钢和 50CrVA 钢基体拉伸性能影响较小,相比于裸材,各项指标数值波动均在 5% 以内。
Abstract:
: Cyanide free cadmium titanium plating and cyanide cadmium titanium plating were performed on the surfaces of different steel substrates , and the hydrogen embrittlement , fatigue , and tensile properties of the coatings were compared between the two processes on the surfaces of different steel substrates. The results show that there is no significant difference in hydrogen embrittlement performance between 300M steel and 4340 steel after cyanide free cadmium titanium plating and cyanide plated cadmium titanium plating. After cyanide free cadmium titanium plating and cyanide plated cadmium titanium plating on 300M steel and 50CrVA steel , there was a small change in fatigue performance. After cyanide free cadmium titanium plating on 50CrVA steel , the fatigue limit was reduced by 1.5% compared to the bare material , and after cyanide plating on cadmium titanium , the fatigue limit was increased by 5.0% compared to the bare material. After cyanide free cadmium titanium plating at 300M steel , the fatigue limit increased by 3% compared to the bare material. After cyanide plating cadmium ti tanium , the fatigue limit was reduced by 7% compared to bare materials. Cyanide free electroplating of cadmium titanium has little effect on the tensile properties of 300M steel and 50CrVA steel matrices , and compared to bare materials , the fluctuation of various index values is within 5%.

参考文献/References:



[1] 汤智慧 , 陆峰 , 张晓云 , 等 . 高强度钢防护现状 [C]// 第四届全国腐蚀大会论文集 . 北京 : 中国腐蚀与防护协会 , 2003: 561-564.

[2] 屠振密 . 电镀合金原理和工艺 [M]. 北京 : 国防工业出版社 , 1993: 273.

[3] 秦月文 , 刘佑厚 . 腐蚀环境中 Q420qD 钢十字接头的疲劳性能试验与数值研究 [J]. 材料保护 , 2021, 12(1): 67-71.

[4] 刘鹏 , 蔡健平 , 王旭东 , 等 . 飞机起落架材料防护技术现状及研究进展 [J]. 装备环境工程 , 2011, 8(2): 81-84.

[5] 李博 . 控制超高强度钢零件电镀渗氢 , 预防氢脆发生的方法 [J]. 新技术新工艺 , 2015(9): 100-102.

[6] 刘佑厚 . 飞机用高强度钢的防护 [C]// 中国腐蚀与防护学会航空航天表面工程专业委员会技术论文集 . 南昌 , 1992: 27-40.

[7] 张允诚 , 胡如南 , 向荣 . 电镀手册 [M]. 北京 : 国防工业出版社 , 1997: 1011-1012.

[8] Nascimento M P, Souzab R C, Pigatin W L, et al. Effect of surface treatments on the fatigue strength of AISI 4340 Aeronautical steel [J]. International Journal of Fatigue, 2001, 23(7): 607-618.

[9] 柳玉波 . 表面处理工艺大全 [M]. 北京 : 中国计量出版社 , 1996: 139-142.

[10] 赵志江 , 杨宝利 . 弹簧的氢脆断裂特征与原因分析 [J]. 国防技术基础 , 2006, 3(8): 41-43.

[11] 张雅 , 方军 , 刘金龙 , 等 . 1Cr15Ni4Mo3N 钢螺栓的断裂分析 [J]. 热处理 , 2020, 35(5): 53-56.

[12] 张挺 , 赵峥 , 倪莉 , 等 . 高强度螺栓氢脆问题研究 [J]. 全面腐蚀控制 , 2016, 30(7): 28-32.

[13] Watanabe H, Hayashi S, Honma H, et al. Microbump formation by noncyanide gold electroplating[J]. Journal of the Electrochemistry Society, 1999, 146(2): 574-582.

[14] Sato J, Kato M, Otani H, et al. Development of new electrolytic and electroless gold plating processes for electronics applications[J]. Journal of the Electrochemistry Society, 2002, 149: 168-174.

[15] 秦足足 , 李建三 , 徐金来 , 等 . 国内外无氰镀铜工艺研究进展 [J]. 电镀与涂饰 , 2015, 34(3): 149-152.

[16] 毕晨 , 刘定富 , 曾庆雨 , 等 . 丁二酰亚胺体系无氰镀银添加剂的研究 [J]. 电镀与涂饰 , 2016, 35(3): 131-135.

[17] Krishnan R M, Kanagasabapathy M, Jayakrishnan S, et al. Electroplating of copper from a non-cyanide electrolyte[J]. Plating and Surface Finishing, 1995, 82(7): 56-59.

[18] 王宗雄 , 鲍新华 , 周长虹 , 等 . 无氰镀锌工艺的应用及典型配方 [J]. 电镀与涂饰 , 2015, 34(1): 34-39.

备注/Memo

备注/Memo:
收稿日期: 2023-09-12 修回日期: 2024-02-27 作者简介: 郝江华( 1984 —),男,本科,高级工程师, email : haojianghua6625@163.com * 通信作者: 高晓颖( 1992 —),女,博士,工程师, email : nycious@163.com?/html>
更新日期/Last Update: 2024-04-09