等离子堆焊双送粉制备Ni60A/WC复合涂层的组织与性能

doi:10.13251/j.issn.0254-6051.2025.10.044

金属热处理 ›› 2025, Vol. 50 ›› Issue (10): 271-275.DOI: 10.13251/j.issn.0254-6051.2025.10.044

等离子堆焊双送粉制备Ni60A/WC复合涂层的组织与性能

马朝阳, 汪选国, 江欣谕, 谢冰, 王华君

武汉理工大学材料科学与工程学院, 湖北武汉 430070

收稿日期:2025-05-09 修回日期:2025-08-22 出版日期:2025-10-25 发布日期:2025-11-04
通讯作者: 王华君,副教授,博士,E-mail:wanghuajunhb@163.com
作者简介:马朝阳(1999—),男,硕士研究生,主要研究方向为热锻模具涂层性能改良,E-mail:zhaoyangma2022@163.com。
基金资助:
国家自然科学基金(51475346)

Microstructure and properties of Ni60A/WC composite coating fabricated by plasma surfacing with dual-powder feeding

Ma Chaoyang, Wang Xuanguo, Jiang Xinyu, Xie Bing, Wang Huajun

School of Material Science and Engineering, Wuhan University of Technology, Wuhan Hubei 430070, China

Received:2025-05-09 Revised:2025-08-22 Online:2025-10-25 Published:2025-11-04

摘要/Abstract

摘要： 将外置送粉系统与等离子堆焊设备相结合,建立双送粉通道,在不同外置WC送粉量下,在H13钢上制备Ni60A/WC复合涂层,并与内置单送粉Ni60A/WC涂层进行对比。采用微观形貌观察、XRD分析、显微硬度和热疲劳测试对涂层进行了评估。结果表明,双送粉在外部WC送粉量大于6 g/min时,制备涂层中WC颗粒均匀分布。采用两种方式制备的涂层物相均为γ-(Fe, Ni)固溶体、Cr₇C₃、Cr₂₃C₆、Cr₃C₂和Cr₄Ni₁₅W。双送粉制备的涂层硬度比单送粉高,随着WC外送粉量的增加,硬度也随之提高。两种方式制备涂层在热疲劳试验后均有裂纹产生,热疲劳裂纹集中于涂层的熔合线及WC颗粒周围,随着WC外送粉量的增加,涂层中出现的裂纹随之增加。综合对比,双送粉在WC外送粉量为8 g/min时,涂层整体性能最佳。

关键词: 等离子堆焊, 双送粉, Ni60A/WC复合涂层, 物相, 硬度, 热疲劳性

Abstract: An external powder feeding system was combined with plasma surfacing equipment to establish a dual powder feeding channel. Under different external WC powder feeding rates, Ni60A/WC composite coatings were prepared on H13 steel, and compared with the Ni60A/WC coatings prepared by the built-in single powder feeding method. The coatings were evaluated by means of microscopic morphology observation, XRD analysis, microhardness test and thermal fatigue test. The results show that when the external WC powder feeding rate of the dual powder feeding system exceeds 6 g/min, the WC particles in the prepared coating are uniformly distributed. The phases of the coatings prepared by the two methods are all γ-(Fe, Ni) solid solution, Cr₇C₃, Cr₂₃C₆, Cr₃C₂ and Cr₄Ni₁₅W. The hardness of the coating prepared by the dual powder feeding method is higher than that prepared by the single powder feeding method, and as the external WC powder feeding rate increases, the hardness also increases accordingly. Cracks occur in the coatings prepared by both methods after the thermal fatigue test. The thermal fatigue cracks are concentrated at the fusion lines of the coatings and around the WC particles, and as the external WC powder feeding rate increases, the number of cracks appearing in the coatings increases accordingly. Comprehensive comparison shows that when the external powder feeding rate of the dual powder feeding system is 8 g/min, the overall performance of the coating is the best.

Key words: plasma surfacing, dual powder feeding, Ni60A/WC composite coating, phase composition, hardness, thermal fatigue resistance

中图分类号:

TG455

马朝阳, 汪选国, 江欣谕, 谢冰, 王华君. 等离子堆焊双送粉制备Ni60A/WC复合涂层的组织与性能[J]. 金属热处理, 2025, 50(10): 271-275.

Ma Chaoyang, Wang Xuanguo, Jiang Xinyu, Xie Bing, Wang Huajun. Microstructure and properties of Ni60A/WC composite coating fabricated by plasma surfacing with dual-powder feeding[J]. Heat Treatment of Metals, 2025, 50(10): 271-275.

参考文献

[1] 樊明强, 赵英利, 王超, 等. 国内热锻模具钢的发展现状[J]. 河北冶金, 2024(5): 9-13.
Fan Mingqiang, Zhao Yingli, Wang Chao, et al. The development status of hot forging die steel in China[J]. Hebei Metallurgy, 2024(5): 9-13.
[2] 肖宜仰, 刘宗江, 王超, 等. 高端机胀断连杆模具寿命提升研究与应用[J]. 锻压装备与制造技术, 2023, 58(2): 97-99.
Xiao Yiyang, Liu Zongjiang, Wang Chao, et al. Research and application on improving the service life of expansion and fracture connecting rod die for high-end machine[J]. China Metalforming Equipment and Manufacturing Technology, 2023, 58(2): 97-99.
[3] Gronostajski Z, Kaszuba M, Polak S, et al. The failure mechanisms of hot forging dies[J]. Materials Science and Engineering A, 2016, 657: 147-160.
[4] 杨程, 张金虎, 彭迎娇, 等. 不同表面处理下H13钢的高温摩擦磨损行为[J]. 塑性工程学报, 2023, 30(4): 162-169.
Yang Cheng, Zhang Jinhu, Peng Yingjiao, et al. High temperature friction and wear behaviors of H13 steel with different surface treatments[J]. Journal of Plasticity Engineering, 2023, 30(4): 162-169.
[5] Valleti K, Miryalkar P, Ramakrishna M. Efficacy of TiCrN/DLC coatings for service life enhancement of stamping dies[J]. Vacuum, 2023, 217: 112534.
[6] 邓德伟, 葛言柳, 田鑫, 等. 等离子堆焊球形碳化钨颗粒增强镍基合金堆焊层的组织与性能[J]. 金属热处理, 2012, 37(11): 64-68.
Deng Dewei, Ge Yanliu, Tian Xin, et al. Microstructure and mechanical properties of nickel-based hardfaced coating reinforced by spherical tungsten carbides by PTAW[J]. Heat Treatment of Metals, 2012, 37(11): 64-68.
[7] Zhang Le, Xiong Jiankun, Li Yang, et al. Elucidating friction properties and strengthening mechanisms of Ni-based surfacing layer containing 9R phase[J]. Surface and Coatings Technology, 2023, 468: 129751.
[8] 龙军峰, 孙智富, 叶靖, 等. 等离子喷焊镍基合金碳化钨复合涂层[J]. 重庆工学院学报(自然科学版), 2009, 23(10): 46-49.
Long Junfeng, Sun Zhifu, Ye Jing, et al. Study on plasma spray welding of Ni-Based alloy WC composite coatings[J]. Journal of Chongqing University of Technology(Natural Science), 2009, 23(10): 46-49.
[9] 蒋延涛. WC颗粒增强铁基耐磨熔覆层工艺研究[D]. 合肥: 合肥工业大学, 2014.
[10] 李连颖, 杜晓东, 宋自力, 等. 后送粉角度对等离子喷焊WC颗粒增强Ni基涂层组织的影响[J]. 兵器材料科学与工程, 2011, 34(4): 57-60.
Li Lianying, Du Xiaodong, Song Zili, et al. Effect of back feeding angle on the structure of WC particles reinforced Ni-based coating by plasma spray welding[J]. Ordnance Material Science and Engineering, 2011, 34(4): 57-60.
[11] Guo Mianhuan, Liu Aiguo, Zhao Minhai, et al. Microstructure and wear resistance of low carbon steel surface strengthened by plasma melt injection of SiC particles[J]. Surface and Coatings Technology, 2008, 202(16): 4041-4046.

[1]	田育金, 杨胶溪, 高枫, 王高生, 刘琦, 李怀学. 激光等离子复合喷涂NiCr-Cr₃C₂涂层的组织与性能[J]. 金属热处理, 2025, 50(9): 1-6.
[2]	李鹏宇, 董会, 张永杰, 冯玉坤, 周勇. 激光熔覆316L/双尺度SiC复合涂层的结构与摩擦磨损性能[J]. 金属热处理, 2025, 50(9): 39-46.
[3]	吉效科, 毛勇, 李茂, 张丛笑, 见飞龙, 庄磊, 王玮晨, 刘二勇. 不锈钢熔覆层的微观组织和腐蚀磨损性能[J]. 金属热处理, 2025, 50(9): 92-98.
[4]	康旭, 李振亮, 岑耀东, 包喜荣, 张建飞, 丁国. 冷轧及热处理对喷射沉积Al-Cu-Mg合金织构与硬度的影响[J]. 金属热处理, 2025, 50(9): 99-108.
[5]	肖晨亮, 程从前, 赵杰, 曹铁山. 淬火回火工艺对DF13钢组织与力学性能的影响[J]. 金属热处理, 2025, 50(9): 195-201.
[6]	王庆雷, 代玉杰, 毕高杰. 冷处理对38CrMoAl钢销轴组织与性能的影响[J]. 金属热处理, 2025, 50(9): 223-227.
[7]	郭春成, 李海宏, 曾西军, 周锴, 信振飞, 迟宏宵, 马党参. Mo元素对马氏体不锈轴承钢渗层组织与硬度的影响[J]. 金属热处理, 2025, 50(8): 20-23.
[8]	那艳会, 王存宇, 冯桂萍, 周吉贞. 直线滚动导轨用55MnCr钢的感应淬火组织与硬度[J]. 金属热处理, 2025, 50(8): 76-79.
[9]	王冰, 孙瀚, 程战, 吴元科, 钟素娟, 龙伟民, 关常勇. 激光功率对18CrNiMo渗碳钢淬火层组织与性能的影响[J]. 金属热处理, 2025, 50(8): 103-109.
[10]	周俊, 赵文, 李威, 许世明, 何江浩, 莫少览, 邓江, 邓庆祝. 直流等离子渗氮与活性屏等离子渗氮后EN40BT钢的组织与性能[J]. 金属热处理, 2025, 50(8): 195-201.
[11]	何龙祥, 孟令辉, 胡圣华, 路鸣君. 45钢真空碳氮共渗淬火的大批量生产工艺[J]. 金属热处理, 2025, 50(8): 239-242.
[12]	夏晓健, 严康骅, 陈中一, 李约翰, 谢红波, 祁原深. 掺Sn对热渗锌层微观结构与性能的影响[J]. 金属热处理, 2025, 50(8): 292-297.
[13]	韩克甲, 曹颖, 周超, 李洪伟, 丁烁锟. 抽油杆断裂失效分析[J]. 金属热处理, 2025, 50(8): 298-300.
[14]	龚雪玲, 顾剑锋, 王婧, 袁志钟, 王琴, 史有森. GCr15钢的碳氮共渗工艺参数及其对微观组织与性能的影响[J]. 金属热处理, 2025, 50(7): 1-9.
[15]	李聪, 李家丰, 林志宏, 龙朝辉. 连续固溶体(Nb,Ti)Zn₃的晶体结构、硬度与耐腐蚀性[J]. 金属热处理, 2025, 50(7): 159-163.

等离子堆焊双送粉制备Ni60A/WC复合涂层的组织与性能

Microstructure and properties of Ni60A/WC composite coating fabricated by plasma surfacing with dual-powder feeding

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价