不同基材和涂层激光重熔表面改性的研究现状与进展

介绍了不同基材和涂层激光重熔表面改性的研究现状与进展。着重介绍了等离子喷涂层的激光重熔组织和性能．同时也介绍了其他涂层表面的激光重熔后的组织和性能，而且时激光重熔的计算机数值模拟研究现状和工业领域应用作了综合性介绍，并提出了有待进一步研究的问题。     

冷喷涂Cu402F涂层激光重熔表面改性后摩擦学行为

目的研究激光重熔后冷喷涂Cu402F涂层在腐蚀介质中的摩擦学行为。方法采用冷喷涂技术在镍铝青铜9442合金上制备了厚度约为882.11μm的Cu402F涂层,并使用激光重熔技术对冷喷涂涂层进行表面改性。使用OM、SEM观察涂层截面与表面的微观形貌;使用XRD、X射线残余应力测试仪、多功能表面性能测试仪、多频直线往复磨蚀实验机,重点表征测试了涂层的组织、表面残余应力、摩擦学性能与磨蚀行为。结果激光重熔后的涂层分为表面重熔层、多孔的重熔过渡层以及冷喷涂遗传层。激光重熔前后,涂层的物相、残余应力均未发生较大变化。在20、50、100 N条件下,激光重熔态涂层的平均摩擦系数呈递增趋势,磨损率分别为1.01×10~(-2)、1.17×10~(-2)、1.34×10~(-2) mm~3/(N·m);由磨蚀实验可知,磨蚀是涂层表面产生钝化膜与钝化膜被破坏的此消彼长的过程,反映着摩擦与腐蚀的协同作用,涂层在磨蚀过程中,开路电位与摩擦系数呈正相关,说明激光重熔态涂层表面钝化膜产生的速度快于钝化膜被坏的速度。结论激光重熔保留了冷喷涂技术制备的Cu402F涂层的优点,同时激光重熔涂层上产生钝化膜的速度更快,有利于提高涂层的耐磨蚀性能。     

激光表面重熔对ZrO_2-8wt%Y_2O_3热障涂层组织与抗热震性能的影响

采用等离子喷涂设备在H13热作模具钢表面制备氧化钇部分稳定的氧化锆(ZrO2-8 wt%Y2O3)热障涂层,并用CO2横流激光器对热障涂层进行表面重熔处理,并采用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、热震试验等手段研究激光重熔前后热障涂层的微观结构及其抗热震性能的变化。结果表明,重熔前后涂层均由四方结构钇锆氧化物和立方相的氧化锆组成,重熔后涂层结晶度增加,晶粒有长大现象。激光重熔后涂层产生明显分层,表层组织孔隙和裂纹明显减少,裂纹呈网状且沿晶界分布,重熔涂层内部仍保持等离子喷涂典型结构。激光重熔后涂层孔隙率降低了67%,涂层的抗热震性能也显著提高。     

激光重熔对Fe基非晶合金涂层抗冲蚀性能的影响

采用YAG脉冲激光器对电弧喷涂Fe基非晶涂层进行激光重熔处理。通过X-ray、SEM、冲蚀磨损和硬度测量仪等检测手段,研究非晶合金涂层在重熔后的组织结构、硬度和抗冲蚀性能的变化。结果表明:电弧喷涂铁基非晶合金在激光重熔后发生晶化,重熔层非晶含量随功率升高而降低。激光重熔基本消除了非晶涂层的层状结构、残余的气孔和裂纹,平整了涂层表面,提高了涂层韧性,显著改善了涂层的抗冲蚀性能。对喷涂1层的非晶涂层进行重熔时,重熔层的冲蚀磨损量约为喷涂层的1/10,约为基体Q345的1/5。对喷涂5层的非晶涂层进行重熔时,选择0. 1 kW低功率有利于获得较好的抗冲蚀性能。当涂层较厚而激光重熔未熔透时,涂层内应力会随激光功率增大而升高,并导致涂层开裂。当5层非晶涂层被熔透时,抗冲蚀性能显著提高。     

激光重熔低压等离子喷涂MoB/CoCr梯度涂层组织与性能研究

采用低压等离子喷涂技术在310S不锈钢表面制备MoB/CoCr梯度涂层,然后对MoB/CoCr涂层进行激光重熔处理,对重熔后涂层的组织结构及性能进行了研究。研究结果表明,激光重熔后,涂层表面平整致密,截面的显微组织呈树枝晶—胞状晶—平面晶过渡;激光重熔过程中,微熔的310S基体元素与熔化的涂层元素发生对流扩散现象,涂层中出现Fe元素成分;激光重熔后,MoB/CoCr层的硬度明显提高。     

激光重熔对冷喷涂镍铝青铜涂层组织性能的影响

采用冷喷涂技术在镍铝青铜9442合金表面制备了镍铝青铜涂层,并对涂层进行激光重熔处理。使用SEM、OM、EDS、XRD、显微硬度测试仪,多功能表面性能测试仪、电化学工作站、磁致伸缩空泡腐蚀试验机分析了涂层的组织形貌、显微硬度、摩擦学性能、耐腐蚀性能以及抗空泡腐蚀性能。结果表明:激光重熔后涂层变得致密,结合方式转变为冶金结合;涂层平均显微硬度提高到354.4 HV0.2;激光重熔态涂层的自腐蚀电位Ecorr比基体提高了9.2%,比冷喷涂态涂层提高了18.2%,耐腐蚀性能优于基体和冷喷涂态涂层;激光重熔态涂层摩擦系数0.141,低于基体和冷喷涂态涂层,减磨性能提高;经过12 h空泡腐蚀后,激光重熔态涂层比铸态镍铝青铜基体的质量损失减少了约46.0%。     

激光重熔对等离子喷涂热障涂层冲蚀行为影响

研究了等离子喷涂和激光重熔ZrO<,2>-7%Y<,2>O<,3>热障涂层的微观结构,同时考察了两种涂层的抗冲蚀性能,并探讨了其冲蚀破坏机理.试验发现,等离子喷涂热障陶瓷涂层呈典型的层状堆积特征;经过激光重熔处理后,涂层表面形成了沿热流方向生长的柱状品重熔区;相对于等离子喷涂试样,激光重熔涂层有较好的抗冲蚀性能;不管等...     

激光重熔等离子喷涂WC颗粒增强镍基涂层组织及高温磨损性能

为了提高等离子喷涂WC颗粒增强镍基涂层的性能,采用激光重熔工艺对涂层进行处理,研究了激光重熔对涂层微观组织和性能的影响．用扫描电镜（SEM）、X射线衍射仪（XRD）和显微硬度计分析了涂层表面形貌、微观结构、相组成和显微硬度,同时对涂层的高温摩擦磨损特性进行了考察．结果表明,激光重熔消除了等离子喷涂层的层片状结构、孔隙等缺陷,涂层致密度提高;另外在激光高能量密度作用下,WC颗粒部分熔化,并在周围析出枝晶结构．激光重熔处理后涂层的显微硬度明显提高,其磨损性能也显著高于原等离子喷涂层．     

Ni－Fe－Cr－B－Si涂层超塑扩散焊接的强化效应及耐磨性

研究了Ｎｉ－Ｆｅ－Ｃｒ－Ｂ－Ｓｉ合金涂层超塑性扩散焊接及焊接后的强化效应。通过对涂层的组织结构分析、硬度及耐磨性能的测试表明，当基材（５ＣｒＭｎＭｏ钢）与涂层产生协调超塑变形时，涂层原颗粒间、涂层与基材结合界面完全焊合。超塑焊合后的涂层比高频重熔及火焰重熔涂层硬度（ＨＶ）提高１００－１５０，耐摩擦磨损性能提高３０％。指出，沉淀强化、细晶强化及晶内位错密度增加是引起涂层强化效应和提高耐磨性的主要因素。     

Ni—Cr—B—Si等离子喷涂层加热重熔后组织与性能

用真空炉对Ｎｉ－Ｃｒ－Ｂ－Ｓｉ合金粉末等离子喷涂进行整体加热，使涂层重熔。研究了重熔后喷涂层的组织与性能，结果表明，经重熔处理后喷涂层与基体的结合力，抗高温磨损性能和抗高温氧化性能得到了明显提高而孔隙率却明显降低     

Microstructure and corrosion properties of plasma-sprayed NiCr-Cr3C2 coatings comparison with different post treatment

The effects of laser and plasma arc remelting on the microstructure and properties of plasma-sprayed NiCr-Cr₃C₂ coatings on steel substrates have been investigated. The microstructure of the coatings has been analyzed by X-ray diffraction (XRD) and scanning electron microscope (SEM). It is found that the Cr₃C₂, δ-(Cr,Ni), Cr₇C₃ and Cr₂₃C₆ phases were obtained for both coatings, before and after remelting treatment. The laser remelting was operated in a continuous way with 800 W power in different scan speed, while the plasma arc remelting was operated with a plasma cladding machine under different scan currents. However, the denser microstructure of both remelted coatings can be obtained, especially for the plasma arc remelted coating. The Vickers microhardness measurement showed certain enhancement values for both remelted coatings. The corrosion behavior was evaluated through salt spray corrosion (SSC) method. Energy-dispersive spectroscopy (EDS) showed that the chloride was produced during SSC process. The higher corrosion resistance for plasma arc remelted coating may be due to the more compact microstructure, less porosity rate and tensile residual stress. Compared with laser remelting method, plasma arc remelting is a cheap, convenient and effective remelting method.     

Laser remelting of plasma-sprayed yttria partially stabilized zirconia coatings

A plasma-sprayed 8 wt.% yttria partially stabilized zirconia coating doped with 3 wt.% SiO₂ was remelted by laser. The microstructure of the as-sprayed and laser-remelted coatings was characterized by scanning electron microscopy (SEM), electron probe microanalysis (EPMA), transmission electron microscopy (TEM), and x-ray diffraction (XRD). The effect of laser remelting on the hardness, wear resistance, and thermal shock resistance of the coatings was also studied. The laser-remelted coating consists of fine solidification grains without the presence of pores and cracks. The elements are uniformly distributed in the laser-remelted coating. Nontransformable tetragonal (t′) phase is predominant in the laser-remelted coating with a small amount of cubic phase. Laser remelting greatly enhanced the hardness, wear resistance, and thermal shock resistance of the coatings, and should find more applications.     

热喷涂Ni基复合涂层重熔处理的研究现状

热喷涂Ni基复合涂层因具有耐磨、耐腐蚀及耐高温等特点,被广泛应用于机械零件的表面修复和保护。但是,热喷涂层为典型的层状结构,具有微缺陷含量较高、与基体结合强度低等特点,难以适应苛刻的工作环境,其应用和发展受限。重熔处理可以消除热喷涂层的层状结构,消除或部分消除孔隙、裂纹等微缺陷,使涂层与基体形成冶金结合,提高涂层的使用性能。本文首先介绍了几种适用Ni基复合涂层的重熔技术(即激光重熔、火焰重熔、感应重熔等),随后介绍了重熔处理对Ni基复合涂层表面完整性(即微缺陷、结合强度和硬度)的影响,接着分析了重熔处理对Ni基复合涂层两种服役性能(即耐磨性、耐腐蚀性能)的影响,最后总结了目前在关于Ni基复合涂层重熔技术研究中存在的问题,进而探讨了相应的解决方案,并指出挖掘新的表面重熔技术和对不同的材料体系进行针对性研究是未来重点发展的方向。     

Corrosion properties of in situ laser remelted NiCrBSi coatings comparison with hard chromium coatings

This study aims at evaluating the effect of an in situ laser remelting treatment of NiCrBSi coatings, deposited by plasma spraying. Life Cycle Assessment (LCA) method was used to estimate the environmental impacts of coating processes. It was demonstrated with this LCA that the in situ remelting process was clean. Microstructural results were also evaluated. A good metallurgical bond was formed at the remelted coating interface. Scanning electron microscopy observation revealed also that laser treatment induces a change of the microstructure from lamellar to columnar dendritic. The dependence between the microstructure of NiCrBSi coatings, which was modified by laser treatment, and corrosion resistance has been evaluated by potentiodynamic polarization curves. Results show that, the corrosion resistance was increased because of a finer structure and higher densities of the coatings, but corrosion mechanisms occurring in all cases were different. From the electrochemical experiments in NaCl solution it can be deduced that laser remelting of as-sprayed coatings does not affect their corrosion rate. Corrosion evolves due to a progressive penetration of the electrolyte through the disturbed structure of the as-sprayed samples, whereas the substrate surface of remelted coating is not reached, because of a higher density. But ClMO intermediate species were formed on the surface, because Cl⁻ can destroy the protective film on the coating. The hybrid plasma/laser process was cleaner than hard chromium plating and its corrosion behavior is superior too.     

激光重熔对电弧喷涂含非晶相铁基涂层性能的影响

目的提高电弧喷涂含非晶相Fe基涂层的抗冲蚀及耐腐蚀性能。方法采用YAG脉冲激光器对电弧喷涂含非晶相Fe基涂层进行激光重熔处理。通过X-ray、SEM、冲蚀磨损和电化学等检测手段,研究该涂层重熔后的组织结构、冲蚀磨损性能和耐腐蚀性能。结果电弧喷涂含非晶相Fe基涂层经激光重熔后发生了晶化,并随着功率的增加,非晶含量降低,硬度也降低。重熔后,涂层与基体的结合方式由之前的机械咬合转变为冶金结合,涂层的致密度明显提高,组织缺陷减少。与喷涂层相比,0.3k W激光重熔涂层的抗冲蚀性能在30°攻角下可提高3倍,在90°攻角下可提高将近6倍。重熔层的冲蚀磨损机制在低冲角时以显微切削为主,高冲角时则以挤压破碎为主。随着激光功率的增加,重熔涂层的抗冲蚀性能降低。同时,在3.5%NaCl溶液中,重熔层的耐蚀性能随重熔激光功率的提高而提高,并且重熔层的腐蚀电流密度比喷涂层明显降低。结论激光重熔不但改善了电弧喷涂含非晶相Fe基涂层与基体间的结合状态,同时也增强了涂层的耐蚀和耐磨性能,是一种有效提升涂层性能的后处理工艺。     

Influence of Plasma Remelting on the Microstructure and Cavitation Resistance of Arc-Sprayed Fe-Mn-Cr-Si Alloy

Surface remelting is an important technique for modifying the microstructure of thermally sprayed coatings as it reduces the porosity and promotes a metallurgical bond between substrate and coating. Many studies have been carried out in the field of materials selection and surface engineering in an attempt to reduce cavitation damage. In this work, an Fe-Mn-Cr-Si alloy was deposited by arc spraying and then remelted by a plasma-transferred arc process. The base metal was a soft martensitic stainless steel. The influence of remelting current on coating and base metal microstructure and cavitation resistance was studied. The use of a lower mean current and a pulsed arc reduced the thickness of the heat-affected zone. In specimens remelted with constant arc current, dendrites were aligned parallel to the path followed by the plasma torch; while in those remelted with a pulsed plasma arc, the alignment of the microstructure was disrupted. The use of a higher peak current in pulsed-current plasma transferred arc remelting reduced mass loss due to cavitation. Fe-Mn-Cr-Si coatings exhibited cavitation-induced hardening, with martensite formation during cavitation tests. This transformation helps to increase the cavitation resistance of the remelted coating compared with the soft martensitic stainless steel base metal.     

Investigation of surfacing processes using aluminium-based alloys

Summary

It has been recently reported that porous Ti-N sprayed coatings can be made fine-structured by laser irradiation. This paper describes an investigation of the effects of infiltrated metal species on the wear resistance of Ti-N remelted layers.

Non-ferrous metal powders were sprayed on SS400 steel plate substrates in an argon atmosphere. The coating thickness was around 200 μm. Pure titanium was also sprayed on the non-ferrous sprayed coatings in a nitrogen atmosphere. The coating thickness was around 400 μm. Coating specimens consisting of non-ferrous and Ti-N layers were remelted by laser in a nitrogen atmosphere. The remelted layers of the coatings had a fine microstructure with a hardness value above HV1000. The wear resistance of the Ti-N coatings was appreciably improved by remelting.     

复合制备Ni基合金涂层的组织结构及性能演变特征

采用超音速等离子喷涂技术在45#钢基体上制备Ni60合金涂层,对预制的涂层分别进行高频感应重熔和感应重熔+强制冷却处理。借助OM、SEM、XRD、显微硬度计和销盘式摩擦磨损试验机对3种涂层的组织结构、显微硬度分布及摩擦磨损性能进行分析,研究Ni60合金涂层组织结构及其性能的演变特征。结果表明:3种涂层组织结构差异较大,单纯感应重熔涂层使喷涂涂层组织结构细密化,感应重熔+强制冷却的涂层形成了外延型生长的定向晶结构。喷涂涂层硬度自内向外呈明显下降趋势,而后续处理的2种涂层均表现为自内向外略为增加趋势,导致喷涂涂层尽管有较高的平均硬度,但表层硬度低于其他2种涂层。3种涂层均有很好的耐磨性能,但后续处理使涂层的摩擦系数明显增大,耐磨性能显著增强,尤其附加强制冷却的涂层表现出更加优异的耐磨性能,其平均磨损率分别低于喷涂涂层约8.5倍和单纯感应重熔涂层约2倍。