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1.
激光熔敷镍基自熔性合金粉末的研制 总被引:4,自引:0,他引:4
针对激光熔敷表面处理技术对合金粉末材料性能的要求,分别研究了合金粉末的B含量、Si含量以及B、Si含量配比对激光熔敷的工艺性能、粉末形貌及涂层性能的影响,研制出具有良好的工艺性能和使用性能的激光熔敷用镍基自熔性合金粉末. 相似文献
2.
45#钢表面NiCrBSi合金激光熔敷层的组织和硬度 总被引:2,自引:0,他引:2
为提高45^#钢表面硬度及耐磨性能,采用激光熔敷技术在其表面制备NiCrBSi合金涂层,利用X射线衍射仪、扫描电镜和透射电镜分析了熔敷层的微观组织,利用显微硬度计测试了熔敷层的硬度,结果表明,激光熔敷层的组织由γ-Ni树枝晶、γ-Ni Ni3B共晶、M7C3树枝晶和CrB颗粒组成,激光熔敷层的硬度在HV800~900之间. 相似文献
3.
氩弧熔覆镍基自熔合金的工艺研究 总被引:1,自引:0,他引:1
采用氩弧熔覆工艺在Q235钢基体上获得了F102Fe镍基合金熔覆层.测试了涂层的硬度和耐腐蚀性,借助光学金相显微镜、扫描电子显微镜观察其显微组织,进而对熔覆工艺、合金组织及熔覆层性能之间的关系进行详细阐述.研究结果表明,采用氩弧熔覆工艺可以在Q235钢基表面上获得与基体结合良好、组织细密、具有较高硬度和耐蚀性的F102Fe合金熔覆层.在相同的情况下,增加电流强度或减少熔覆层的厚度,组织由共晶向亚共晶转变;随熔覆层的硬度、耐蚀性降低,塑性有所改善. 相似文献
4.
采用10 kW高功率连续CO2横流激光器在Cr12MoV模具钢表面单道熔覆Ni60AA合金粉末,研究不同激光工艺参数对熔覆层组织和硬度的影响,利用光学显微镜观察熔覆层显微组织,并用自动转塔显微硬度计测量熔覆层显微硬度.结果表明:激光功率的大小对热影响区附近的显微硬度影响不大,扫描速度为400 mm/min时熔覆层次表层硬度可以达到856 HV0.2.熔覆层主要相组织是富Ni的γ-Ni奥氏体枝晶和多元共晶的混合组织,Cr,B等元素的碳化物硬质相弥散分布在基体上. 相似文献
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6.
为了提高核电成套设备的阀体性能,利用光学显微镜、扫描电子显微镜、X射线衍射仪、电子探针显微分析仪和能谱仪分析了堆焊层的组织形态和成分分布,利用显微硬度计测量了堆焊层的硬度,利用磨损试验机分析了堆焊层的耐磨性.结果表明,堆焊层主要由过共晶组织组成,从熔合线到堆焊表面堆焊层组织依次为平面晶生长区、亚共晶组织区、共晶组织区和过共晶组织区.堆焊层金属相由γ-Ni、CrB、Cr_2B、Cr_7C_3和Cr_(23)C_6组成,初晶相由硼化物(CrB或Cr_2B)和碳化物(Cr_7C_3或Cr_(23)C_6)组成,而共晶组织主要由富(Ni,Fe)奥氏体固溶体或富Ni奥氏体固溶体组成.堆焊层表面平均硬度达到50 HV以上,约为基体硬度的3~5倍,与母材相比堆焊层的耐磨性约提高了9倍. 相似文献
7.
The in situ synthesized NbC particles reinforced Ni-based alloy composite coating was produced by laser cladding a precursor mixture of Ni-based alloy powder,graphite and niobium powders on a steel substrate.The microstructure,phase composition and wear property of the composite coating were investigated by means of scanning electron microscopy(SEM),X-ray diffraction(XRD)and dry sliding wear test.The experiment results show that the composite coating is homogeneous and free from cracks,and about 0.8 mm thick.The microstructure of the composite coating is mainly composed of NbC particles,CrB type chromium borides,γ-Ni primary dendrites,and interdendritic eutectics.CrB phases often nucleate and grow on the surface of NbC particles or in their close vicinity.NbC particles are formed via in situ reaction between niobium and graphite in the molten pool during the laser cladding process and they are commonly precipitated in three kinds of morphologies,such as quadrangle,cluster,and flower-like shape.Compared with the pure Ni-based alloy coating,the microhardness of the composite coating is increased about 38%,giving a high average hardness of HV0.21000,and the wear rate of the composite coating is decreased by about 32%,respectively.These are attributed to the presence of in situ synthesized NbC particles and their well distribution in the coating. 相似文献
8.
Ni-based coatings were deposited on copper substrates by a hydrothermal approach.The results showed that a Ni-based cellular microstructure was bridged by "fiber-like" products.A high microhardness of Hv 856 was achieved after 400℃ heat treatment,which is nine times that of copper substrates(Hv 95).Nucleation,growth,and fusion of Ni atoms along the linear direction,induced by a linear-type citrate-metal structural "molecule template",led to in-situ growth of Ni-based fibers between cellular microspheres.After 400℃ heat treatment,the precipitation of NiP and Ni3P hard phases contributed to the high microhardness of Ni-based coatings. 相似文献
9.
Microstructure and abrasion wear behavior of Ni-based laser cladding alloy layer at high temperature 总被引:1,自引:0,他引:1
Ni-based alloy coating on 21-4-N heat-resistant steel was prepared using CO2 laser, and the high-temperature abrasion wear was tested. The microstructure of this cladding layer and its abrasion wear behavior at high temperature by changing compositions and temperatures were investigated by means of optical microscope and scanning electron microscope. Among the three compositions of cladding layer, i.e. Ni21 +20% WC+0. 5 % CeO2, Ni25+20 % WC+0. 5 % CeO2 and Ni60 + 20 % WC + 0. 5 % CeO2, the experimental results show that Ni21 + 20 % WC + 0.5?O2 cladding layer is made up of finer grains, and presents the best abrasion wear behavior at high temperature. The wear pattern of laser cladding layer is mainly grain abrasion at lower temperature, and it would be changed to adhesive abrasion and oxide abrasion at higher temperature. 相似文献
10.
为了提高304不锈钢表面的综合性能,采用高能脉冲类激光熔覆沉积技术在304不锈钢表面制备了镍基合金熔覆层.采用扫描电子显微镜、能谱仪、X射线衍射仪、销-盘磨损试验机与电化学测试系统对镍基合金熔覆层的显微组织、相结构、耐磨损性能和电化学腐蚀性能进行了研究.结果表明,镍基合金熔覆层与304不锈钢基材呈良好的冶金结合,熔覆层的相对耐磨损性为304不锈钢基材的4.4倍.熔覆层组织由γ-Ni基体相、Ni_3Mo、Fe_7Mo_3和Cr_(23)C_6碟状增强相与不规则棒状增强相组成.增强相是提高耐磨损性能的主要原因,增强相与基体相的电极电位差是导致腐蚀电流密度增加的主要原因. 相似文献
11.
激光熔覆铜基合金涂层中的液相分离行为 总被引:3,自引:0,他引:3
为了研究铜基合金激光熔覆中的液相分离行为,根据液相分离理论在ZL104铝合金表面成功制备了具有液相分离特性的铜基合金涂层,并采用扫描电镜等对涂层中液相分离形成的分离相(硬质强化相)的形态特征与分布规律进行了观察,研究了不同分离相的形成机制与液相分离行为.研究表明,涂层中的分离相通常呈弥散分布和偏聚2种典型形态.熔池温度较高时分离相表现出"富Mo核心 包围相"的2层复合结构,呈边缘粗糙的不规则近球状形貌,这是由异质形核诱发的液相分离所形成的;温度稍低时强的表面能约束则是影响液相分离的主要因素,并使分离相呈光滑球状形态.当表面能过高时在对流等因素作用下分离相问会发生严重的碰撞凝并,最终形成大块偏聚体. 相似文献
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陈浩 《武汉理工大学学报(材料科学英文版)》2003,18(3):30-32
1 IntroductionCobalt basedalloyiswidelyusedingasturbineair craftenginesandvalvespumpshaftsofpressurevessels[1,2 ] ,duetoitshighflowstressesandoutstandingresistancetooxidationandwearuptotemperaturesclosingtoitsmeltingpoint.Thehighsolidificationrateoflasercladdingtendstoresultinfinemicrostructures ,non equi libriumphasesandsupersaturatedsolidsolutions ,whichleadtohighhardnessandwearandcorrosionresi stance[3 -5] .However,crackingfrequentlyappearsinthelasercladdinglayerwhichlimitstheuseofthissurf… 相似文献
13.
6061铝合金表面激光熔覆温度场的仿真模拟 总被引:3,自引:0,他引:3
利用连续波Nd:YAG固体激光在6061铝合金表面激光熔覆SiC陶瓷粉末,采用ANSYS有限元软件对6061铝合金激光熔覆过程中热量传递及温度场分布进行模拟,在分析过程中采用三维单元,并考虑了材料热物性的非线性及对流和辐射的边界条件,建立了有限元模型,得出了熔覆过程中试样表面的温度分布模拟图.结果表明,温度场模拟等温线呈椭圆形,在移动热源的前方等温线密集,温度梯度较大,热源后方的等温线稀疏,温度梯度较小,熔池内最高温度与激光扫描速度、光斑半径均成反比,与激光功率成正比.模拟结果为陶瓷金属基复合材料激光熔覆工艺参数的优化提供了理论依据. 相似文献
14.
通过送粉式激光熔覆在碳素工具钢(T10钢)表面制备了Co基合金熔覆涂层。利用扫描电子显微镜(SEM)和X射线衍射仪(XRD)分析其微观结构和相组成。结果表明:熔覆层中主要有γ-Co相以及其他相,包括Cr23C6、Co7W6和CrNi。从熔池与基体界面到熔覆层表面存在不同的凝固形态,依次为平面晶(在界面处)、胞状晶和树枝晶。微观组织较细的树枝晶强化了熔覆层,因而激光熔覆层的显微硬度增加,耐腐蚀性提高。 相似文献
15.
TiC x -NiTi2/Ti cermet composite coatings C1 and C2 with gradient TiC x reinforcements were prepared on TC4 titanium alloy by laser cladding method. The microstructure and phase compositions were analyzed by means of scanning electron microscopy (SEM), energy-dispersive spectroscopy (EDS) and X-ray diffraction (XRD) meter. The TiC x exhibited a dendritic microstructure, and homogeneously dispersed in the Ti-based matrix where NiTi2 was embedded. With increasing ingredient supercooling, temperature gradient and cooling temperature, the dendrites displayed a finer morphology with longer primary trunks and intensified side branches in the dilution zone. But the smoothed, coarse columnar ones became dominant in the upper clad layer due to the repeated energy input during multi-track cladding. The Vickers microhardness presented a linear change trend through the cross-sections, which well confirmed the gradient distribution of TiC x . With more TiC x , C1 presented higher hardness than C2. 相似文献
16.
钛合金表面激光熔覆Cr3C2/Ni基合金复合涂层的微观组织 总被引:1,自引:0,他引:1
将质量分数为25%的Cr3C2/Ni基合金混合粉末预置在TCA合金表面,利用5kW横流CO2激光器进行激光熔覆试验,得到Ni基Cr3C2复合涂层.利用SEM和XRD对熔覆层的微观组织和相组成进行了分析,采用HXD—1000T数字式显微硬度计测量了熔覆层的硬度.结果表明,Ni+Cr3C2复合涂层存在γ-Ni、TiC、CrTC扑M23(C,B)6和CrB等相,熔覆层硬度在600~900HV之间. 相似文献
17.
通过对9SiCr钢表面进行合金激光熔覆处理,在摩擦磨损实验机上对熔覆合金钢与Q235钢配副进行了摩擦磨损性能实验.通过摩擦磨损实验研究了参数如载荷、滑动距离、滑动速度、润滑条件等对Q235钢与熔覆合金钢的磨损量的影响,熔覆合金钢与Q235钢的磨损量与压力和滑动速度成正比.Ni合金钢的耐磨性比Co合金钢要好.通过扫描电镜分析了熔覆合金磨损机理,熔覆合金钢磨损主要以磨粒为主,同时表面存在大量凹坑,而Q235钢以磨粒和塑性变形为主. 相似文献
18.
钛合金表面激光气体氮化及其HA复合涂层的制备 总被引:1,自引:0,他引:1
针对医用钛合金在临床应用中易出现耐磨性差、有毒合金元素溶解引起生理病变等问题,采用化学反应法在医用Ti6Al4V合金基材及其激光氮化改性层表面制备羟基磷灰石(HA)涂层.采用扫描电子显微镜(SEM)、能谱仪(EDAX)对改性层的组织形貌及成分进行分析.结果表明,钛合金表面经过酸碱及生物活性预钙化处理,其沉积类骨磷灰石能力明显增强,经过激光氮化改性的钛合金沉积速率及沉积效果均优于Ti6Al4V基体合金.试验证明,激光氮化改性可改善钛合金的生物相容性. 相似文献
19.
激光熔覆及其在石油机械中的应用现状 总被引:4,自引:1,他引:4
阐述了目前国内外激光熔覆处理设备的发展状况、当前激光熔覆金属陶瓷涂层所常使用的涂层材料、激光涂层时所采取的主要方法及其工艺比较、熔覆区的组织特征及影响因素、硬度与耐磨性及其它表面性能的改善,概括叙述了激光涂层的主要技术特点以及在石油机械行业中的应用现状,指出了该技术在实际应用中所存在的问题并分析了原因。 相似文献
20.
采用横流5kWCO2激光在低碳钢基体表面制备纳米La2O3/Ni基激光熔覆涂层。采用光学显微镜(OP)、扫描电子显微镜(SEM)、X射线衍射仪(XRD)分别对熔覆涂层进行显微组织和相组成的观察。用显微硬度计和滑动磨损试验机对熔覆涂层的硬度和耐磨性进行测试。试验结果表明:熔覆层主要由γ-(Ni,Fe),Cr23C6,LaNi10.5Si2.5等相组成,随离结合面距离增大,熔覆层的组织逐渐变细。随着纳米La2O3加入量及扫描速度增加,熔覆层组织变细。加入纳米La2O3后,平均硬度由未加时500HV0.5提高到约700HV0.5,耐磨性也得到不同程度的提高。在本试验条件下,添加质量分数为1.0%纳米La2O3熔覆层的耐磨性明显高于质量分数为1.5%纳米La2O3熔覆层的耐磨性。扫描速率采用250mm/min的熔覆层,其综合性能最佳。 相似文献