目的 采用激光熔覆技术在304不锈钢表面制备含有碳铬、硼钛化合物及氧化钛等增强相的铁基熔覆层,并对涂层的微观组织及其性能进行研究分析,以期为以后工业化应用提供理论基础.方法 对钛铁(钛质量分数70%)+硼铁(硼质量分数70%)+石墨(纯度99.9%)复合粉末质量分数分别为5%、10%、20%、30%的4种熔覆层(其余熔覆材料为304不锈钢粉末)进行了实验研究,利用扫描电镜(SEM)、X射线衍射对激光熔覆层的微观组织形貌和增强粒子的成分进行研究分析,用光学显微硬度计对激光熔覆层的显微硬度进行测试,用电化学工作站对熔覆层的耐蚀性能进行测试.结果 熔覆层无明显裂纹、气孔等缺陷,与基材结合良好;加入的石墨与钛铁、硼铁在激光熔覆过程中发生了反应,原位生成了Cr23 C6、Cr3 C2、TiO2、Ti1.8 B50等硬质增强相;随着钛铁、硼铁和石墨所占的质量分数增加,熔覆层中生成的硬质增强相含量增加,熔覆层的显微硬度值也随之得到明显提高,其中质量分数为30%的复合粉末熔覆层硬度是基材的3.6倍;激光熔覆试样较基材的耐腐蚀性也随着复合粉末质量分数的增加而提高,其中质量分数为30%的复合粉末熔覆层的耐蚀性是基材的1.58倍.结论 激光熔覆制备含有碳铬、硼钛化合物及氧化钛等增强相的铁基熔覆层较基材性能有明显提高.
Objective Laser cladding technology was used to prepare iron base cladding layers containing reinforced phases such as carbon chromium, titanium boron compounds and iron base of titanium oxide on the surface of 304 stainless steel, and the micro-structure of the coating and its performance was researched and analyzed, so as to provide theoretical basis for future industrial appli-cation. Methods The four kinds of claddings with 5%, 10%, 20%, 30% mass ratios of ilmenite (titanium 70wt%), iron-boron (boron 70wt%) and graphite (carbon 99. 9wt%) composite powder were studied experimentally. The microstructure of laser cladding layers and composition of reinforced particles were analyzed using scanning electron microscope ( SEM ) and X-ray diffraction (XRD), the microhardness of the laser cladding layer was tested using optical microscopy hardness tester, and the corrosion resist-ance of the cladding layer was tested using electricity chemistry workstation. Results The results showed that the cladding layer had no obvious defects such as cracks, porosity, and was well bound with the base material. Reaction occurred in the process of laser cladding among the graphite, ilmenite and boron iron added, and rigid reinforced phases such as Cr23 C6 ,Cr3 C2 ,TiO2 ,Ti1. 8 B50 were in situ generated. With increasing mass fractions of graphite, ilmenite and boron iron, the contents of rigid reinforced phase generated in the cladding layer increased, and the microhardness value of the cladding layer was also obviously improved. The hardness of cladding layer containing 30% of the composite powder was 3. 6 fold as high as that of the base material. The corrosion resistance of the laser cladding specimens was also higher than that of the base material, and it increased with the increasing mass ratio of the composite powder. The corrosion resistance of cladding layer containing 30% of the composite powder was 1. 58 fold as high as that of the base material. Conclusion Iron base cladding layers containing reinforced phases such as carbon chromium, titanium boron compounds and titanium oxide prepared by laser cladding had significantly improved performance than the base material performance.
参考文献
[1] | 王彦芳;栗荔;鲁青龙;丁伟涛;石志强.不锈钢表面激光熔覆铁基非晶涂层研究[J].中国激光,2011(6):177-180. |
[2] | Viswanathan, A;Sastikumar, D;Kumar, H;Nath, AK.Formation of WC-iron silicide (Fe5Si3) composite clad layer on AISI 316L stainless steel by high power (CO2) laser[J].Surface & Coatings Technology,200912(12):1618-1623. |
[3] | 王彦芳;鲁青龙;肖丽君;石志强.304L不锈钢表面激光熔覆Fe-Cr-Si-P非晶涂层[J].稀有金属材料与工程,2014(2):274-277. |
[4] | 张焱;高原;吴炜钦;王成磊;庞泽鹏;程敏楠.4Cr13不锈钢表面镀TiN薄膜组织结构及性能的研究[J].材料导报,2014(4):84-87. |
[5] | 何卫锋;李应红;李伟;李玉琴;李启鹏.激光冲击强化提高压气机叶片疲劳性能研究[J].航空动力学报,2011(7):1551-1556. |
[6] | 杨宁;杨帆.激光熔覆技术的发展现状及应用[J].热加工工艺,2011(8):118-120. |
[7] | 曾维华;刘洪喜;王传琦;张晓伟;蒋业华.工艺参数对不锈钢表面激光熔覆Ni基涂层组织及耐腐蚀性能的影响[J].材料工程,2012(8):24-29. |
[8] | 周思华;晁明举;刘奎立;郭艳花.原位生成WC-B4 C增强镍基激光熔覆层及其性能研究[J].表面技术,2014(3):25-30. |
[9] | 吴兆坤;丘斌林;周玉重;韩璐阳;李东.316L不锈钢激光熔覆层的组织及硬度分析[J].上海工程技术大学学报,2014(2):106-110. |
[10] | 石世宏;王晨;徐爱琴;孙后顺;李洪远.基于环形光光内送粉激光熔覆温度场的数值模拟[J].中国激光,2012(3):56-62. |
[11] | 周正;姚海华;高峰;贺定勇;任先京;蒋建敏.Cr23C6-NiCr涂层制备及其高温氧化行为[J].中国表面工程,2011(6):19-23. |
[12] | 李杰;曾克里;高峰.Cr_3C_2-25NiCr对铁基激光熔覆层微观组织与性能的影响[J].热喷涂技术,2012(1):36-40. |
[13] | 林成虎;任靖日;贺春林.激光原位碳化铬-镍基复合涂层的组织特征[J].激光技术,2014(2):186-190. |
[14] | 袁涛;屈轶;史萌;罗洪军;于继平.汽轮机超音速火焰喷涂NiCr-Cr3C2涂层[J].表面技术,2013(6):63-65,77. |
[15] | Amir Abdullah;Massoud Malaki;Ahmad Eskandari.Strength enhancement of the welded structures by ultrasonic peening[J].Materials & design,2012Jun.(Jun.):7-18. |
[16] | 沈婕;国俊丰;魏伟;高峰;万伟伟;侯伟骜.超音速喷涂Cr3C2-25NiCr复合涂层的组织及电化学特性研究[J].热喷涂技术,2009(2):48-52. |
[17] | 李美艳;韩彬;王勇;宋立新;郭兰阳;于梦飞.B4C和Ti含量对激光熔覆Fe-Cr-Ni-Si系合金涂层结构及性能影响[J].中国激光,2013(12):86-90. |
[18] | 肖正伟;曾振欧;赵国鹏;邱国平.304不锈钢上纳米TiO2涂层的制备与防腐蚀性能研究[J].电镀与涂饰,2007(7):35-38. |
[19] | 陈文怡;周建;胡明.超细晶不锈钢/TiC复合材料的电化学腐蚀行为[J].稀有金属材料与工程,2013(10):2068-2072. |
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