表面技术2024,Vol.53Issue(5):126-136,11.DOI:10.16490/j.cnki.issn.1001-3660.2024.05.013
斜面多道熔覆涂层平整度的数值模拟与试验研究
Numerical Simulations and Experimental Research on Flatness of Inclined Multi-channel Cladding Coatings
摘要
Abstract
Some high-strength structural parts have inclined shapes,such as gears,racks,and impellers.Nickel-based coatings are coated on the surface by laser cladding technology,which improves the mechanical surface performance and extends the service life of the parts.Regarding the geometric characteristics of inclined-matrix coatings,existing literature studies the deflection angles of nozzles,inclination angles of substrates,laser scanning methods,and overlapping ratios.Moreover,existing laser scanning methods include up-to-bottom,bottom-to-up,and horizontal continuous scanning for experimental comparative research. Numerical simulations and experimental research were combined.Adjacent or interval scanning was conducted based on the constant working height between the nozzle and the substrate to explore the effects of different laser scanning methods and overlapping ratios on the surface flatness of inclined cladding coatings.In simulations and tests,Ni35A(1×10‒4 m)powders and 45#steel substrates were used to study inclined heat source derivation,model verification,multi-channel fusion process simulation,and experimental design and analysis.The inclined heat source equation was derived according to the planar Gaussian heat source,and heat source parameters were checked through tests and simulations.The consistency of the cladding morphologies was verified to prove the feasibility of the model. Multi-channel morphology research was carried out on the trajectory of single-channel cladding to explore the influences of scanning methods,inclination angles of substrates,and overlapping ratios on the flatness of multi-channel cladding.The laser scanning method significantly affected the flatness of the multi-channel inclined cladding morphology instead of the flatness of planar multi-channel overlapping.When the overlapping ratio was 30%,the cladding flatness obtained by scanning method 1(SM1)and scanning method 5(SM5)was relatively high under the same cladding conditions;that obtained by scanning methods 2,3,4,and 6 was relatively low.The greater the inclination angle of the substrate,the lower the flatness of the multi-channel cladding under the same powder-feeding amounts,laser power,laser scanning methods,and overlapping ratios.Flatness increased first and then decreased as the overlapping ratio increased under the same cladding conditions and laser scanning method.Taguchi orthogonal design was conducted to explore the influences of the inclination angles of substrates,laser scanning methods,and overlapping ratios on the morphologies of multi-channel cladding for inclined cladding substrates. The variance analysis of the test results showed that the flatness of the multi-channel overlapping of the inclined substrate was significantly affected by the inclination angle of the substrate,the laser scanning method,the overlapping ratio,the quadratic term of the scanning method,the quadratic term of the overlapping ratio,the inclination angle of the substrate,and the interaction term of the scanning method.The relationships among the inclination angle of the substrate,scanning method,and overlapping ratio on flatness were consistent with those of the simulation.The inclination angle of the substrate and the scanning method and its square term significantly affected the cladding efficiency,which gradually decreased with the increase of the inclination angle.Compared with other cladding methods,scanning methods 1 and 5 had higher cladding efficiency. Research on scanning methods in the work helps to obtain smoother surface coatings and provides theoretical guidance for applying laser cladding technology in inclined repair or remanufacturing.关键词
激光熔覆/倾斜基材/数值模拟/扫描方式/熔池演变/平整度Key words
laser cladding/inclined substrate/numerical simulation/scanning mode/evolution of molten pool/flatness分类
航空航天引用本文复制引用
练国富,李益,褚梦雅,陈昌荣,黄旭,冯美艳..斜面多道熔覆涂层平整度的数值模拟与试验研究[J].表面技术,2024,53(5):126-136,11.基金项目
福建省自然科学基金项目(2022J01920) (2022J01920)
福建省本科高校教育教学研究项目(FBJY20230167) Natural Science Foundation of Fujian Province(2022J01920) (FBJY20230167)
Education and Teaching Research Project of Universities in Fujian Province(FBJY20230167) (FBJY20230167)
