Abstract:The influence of heating time on the surface color difference of hot formed parts with Al-Si coating was analyzed and verified through the field test of heating process. Moreover, the surface color difference of Al-Si coated hot formed parts caused by oil, foreign matter contamination and laser blanking as well as their influence was analyzed. The results showed that when the steel grade, thickness specification and heating temperature were the same, there would be color difference on the surface of the parts produced with different heating time. With the extension of heating time, the surface color of the parts changed in the cycle between blue, gray, yellow and brown. When the heating temperature and heating time were similar, the surface color of Al-Si coated parts with different steel grade and thickness would be also different due to the difference of iron diffusion to the coating and iron oxidation degree. The color difference caused by heating process had little effect on the mechanical properties of the hot-formed parts of Al-Si coating. With the increase of heating time, however, the diffusion layer was gradually thickened, and the coating layer became loose and porous. The surface color difference caused by oil had no obvious difference from the normal surface in coating thickness, coating morphology and surface resistance, and had little effect on the subsequent welding and coating anticorrosion properties of parts. The surface color difference caused by oil pollution, Zn powder particles and other foreign bodies had little effect on the coating quality. The surface color difference of hot-formed parts caused by laser drop spot ablation should be avoided by optimizing the process control and standardizing the equipment operation.
陈波, 董伊康, 尹树春, 翟昌源, 刘涛, 张俊杰. 铝硅镀层热成形零件表面色差分析[J]. 冶金分析, 2023, 43(10): 75-83.
CHEN Bo, DONG Yikang, YIN Shuchun, ZHAI Changyuan, LIU Tao, ZHANG Junjie. Discussion on surface color difference of hot formed parts with Al-Si coating. , 2023, 43(10): 75-83.
[1] 张杰,江社明,张启福.热成形钢镀层研究进展[J].金属热处理,2015,40(3):169-172. ZHANG Jie,JIANG Sheming,ZHANG Qifu.Current status of coating for hot formed steel[J].Heat Treatment of Metals,2015,40(3):169-172. [2] 陈波,张继国,华永兴,等.高端车用热成形钢CR300MB的研发与应用[J].金属热处理,2022,47(7):107-113. CHEN Bo,ZHANG Jiguo,HUA Yongxing,et al.Development and application of hot forming steel CR300MB for high-end vehicle[J].Heat Treatment of Metals,2022,47(7):107-113. [3] 陈波,魏焕君,耿志宇,等.热成形钢的脱碳影响因素分析[J].金属热处理,2021,46(2):161-167. CHEN Bo,WEI Huanjun,GENG Zhiyu,et al.Analysis on factors affecting decarburization of hot forming steel[J].Heat Treatment of Metals,2021,46(2):161-167. [4] 单明东,夏益新,王娜,等.A1-Si镀层热成形零件表面颜色差异性研究[J]精密成形工程,2017,9(6):99-103. SHAN Mingdong,XIA Yixin,WANG Na,et al.Research on surface color difference of hot stamping part for Al-Si coating[J].Journal of Netshape Forming Engineering,2017,9(6):99-103. [5] Suehiro M,Mari J,Kusumi K,et al.Properties of aluminum-coated steels for hot-forming[J].Nippon Steel Technical Report,2003,88:16-21. [6] GUI Zhangxiang,LIANG Weikang,ZHANG Yisheng.Formability of aluminum-silicon coated boron steel in hot stamping process[J].Transaction of Nonferrous Metals Society of China,2014(24):1450-1457. [7] 马闻宇,李学涛,郑学斌,等.热处理工艺对铝硅镀层热成形钢组织性能的影响[J].中国冶金2022,32(5):109-115. MA Wenyu,LI Xuetao,ZHENG Xuebin,et al.Influence of heat treatment process on microstructure and property of Al-Si coated hot forming steel[J].China Metallurgy,2022,32(5):109-115. [8] 谢昀映,成毅,吴广新. 热处理工艺对22MnB5钢铝硅镀层氧化层厚度和组织演变的影响[J].表面技术,2020,49(4):245-253. XIE Yunying,CHENG Yi,WU Guangxin.Effect of heat treatment on the thickness of Al2O3 scale and microstructure evolution of Al-Si coating on 22MnB5 steel[J].Surface Technology,2020,49(4):245-253. [9] 周世龙,邓宗吉,陈乐.Si含量对铝硅镀层热成形前后镀层结构与表面形貌的影响研究[J].安徽冶金科技职业学院学报,2021,31(4):1-3. ZHOU Shilong,DENG Zongji,CHEN Le.Study on the influence of Si content on the coating structure and surface morphology of Al-Si coating before and after hot forming[J].Journal of Anhui Vocational College of Metallurgy and Technology,2021,31(4):1-3.
