TiN对Co基合金激光熔覆层组织与性能的影响

采用5 kW CO2激光器在低碳钢表面熔覆Co基合金涂层及TiN/Co基合金复合涂层,研究了两种涂层的组织、显微硬度以及滑动磨损性能。结果表明,Co基合金涂层主要组成相为-γCo,-εCo,Cr23C6等,TiN/Co基合金复合涂层组成相为-γCo,-εCo,Cr23C6,TiN和TiC等。Co基合金涂层由发达的-γCo枝晶和其间共晶组织所组成,TiN/Co基合金涂层典型组织为等轴固溶体以及细小的共晶组织。TiN对熔覆层的组织有显著的改善作用,促使其组织细化,树枝晶向等轴晶转化,同时可显著提高Co基合金涂层的显微硬度及耐磨性能。     

激光熔覆NiCrBSi涂层组织及摩擦磨损性能

采用激光熔覆技术在H13钢表面制备了NiCrBSi合金涂层,利用OM,SEM,EDX和XRD等对熔覆层的微观组织进行了分析,测试了熔覆层的显微硬度和摩擦磨损性能。结果表明,激光熔覆层与基体形成了良好的冶金结合,熔覆层的组织主要由γ-Ni,Cr7C3和CrB等相组成。熔覆层显微硬度在650~850HV之间,明显高于H13钢基体的硬度。摩擦磨损实验表明,在相同的条件下,熔覆层的耐磨性比基体有了明显的提高,磨损体积减少了92.4%。通过对磨损后的试样进行粗糙度测试后表明,涂层具有更平滑的表面。     

激光熔覆Al2O3/Fe901复合涂层的强化机制及耐磨性

为提高金属材料表面涂层的耐磨性,采用激光熔覆工艺制备了Al_2O_3增强Fe901金属陶瓷复合涂层,研究了Al_2O_3陶瓷增强相对Fe基熔覆层组织与性能的影响。利用扫描电镜和X射线衍射仪检测了复合涂层的微观组织和物相;采用显微硬度仪和摩擦磨损试验机分析了复合涂层的显微硬度与耐磨性。结果表明:Fe901涂层的组织以柱状枝晶和等轴枝晶为主,添加的Al_2O_3可促使涂层组织转变为均匀的白色网状晶间组织及其包裹的细小黑色晶粒;复合涂层中的Al_2O_3陶瓷颗粒表面发生微熔,与Fe、Cr结合生成Fe3Al及(Al,Fe)4Cr金属间化合物,起到增加Al_2O_3陶瓷颗粒与金属黏结相结合强度的作用;当Al_2O_3陶瓷颗粒的质量分数为10%时,复合涂层的显微硬度较Fe901涂层增加了16.4%,复合涂层的摩擦磨损质量损失较Fe901涂层降低了50%;添加适量的Al_2O_3陶瓷有助于提高涂层的显微硬度及耐磨性。     

过渡金属硫化物纳米晶的溶剂热合成与表征

以硝酸钴（Co(NO3)2•6H2O）、硝酸铁（Fe(NO3)3•6H2O）和硫脲为原料,在同一混合溶剂（乙二醇和水）中通过控制两种溶剂的比例（1:2; 4:1）,利用溶剂热法在180℃分别恒温制备了硫化钴（CoS1.097）和硫化铁（Fe3S4）两种纳米晶。用X-射线衍射（XRD）、透射电镜（TEM）对样品组成、粒径和表面形貌进行了表征,荧光光谱对其荧光性质进行了测量。结果表明,所得样品分别为六方相的CoS1.097和立方相的Fe3S4纳米粉末。在此基础上,对影响两种纳米晶形成的主要因素进行了初步的分析和讨论。     

过渡金属硫化物纳米晶的溶剂热合成与表征

以硝酸钴(Co(NO3)2·6H2O)、硝酸铁(Fe(NO3)3·6H2O)和硫脲为原料,在同一混合溶剂(乙二醇和水)中通过控制两种溶剂的比例(1∶2; 4∶1),利用溶剂热法在180 ℃分别恒温制备了硫化钴(CoS1.097)和硫化铁(Fe3S4)两种纳米晶.用X-射线衍射(XRD)、透射电镜(TEM)对样品组成、粒径和表面形貌进行了表征,荧光光谱对其荧光性质进行了测量.结果表明,所得样品分别为六方相的CoS1.097和立方相的Fe3S4纳米粉末.在此基础上,对影响两种纳米晶形成的主要因素进行了初步的分析和讨论.     

碳化钨对激光熔覆高熵合金的影响

为了获得高性能的涂层材料,采用激光熔覆的方法,在Q235钢基体上制备了FeSiCrCoMo高熵合金涂层,并研究了WC对高熵合金涂层的组织和性能的影响。通过金相、X射线衍射、扫描电镜、硬度计、磨损试验机分别研究了添加WC前后涂层的微观形貌、相结构、硬度及磨损性能。结果表明:高熵合金FeSiCrCoMo涂层组织为粗大枝状晶,主要由BCC相和金属间化合物构成,添加WC后,涂层中形成了致密细小的胞状晶,同时BCC相增多,金属间化合物明显减少;添加WC后涂层的硬度明显增强,平均硬度提升了23%,涂层表面平均硬度达到了687HV0.2;WC的添加使得涂层的摩擦系数减小,磨损率减小,耐磨性能提高。     

铝合金表面激光沉积AlCrFeCoNiCu涂层的组织及耐蚀性能

为了提高铝合金表面的力学和耐腐蚀性能,利用激光沉积技术在铝合金表面制备了AlCrFeCoNiCu高熵合金涂层。使用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、能谱分析仪(EDS)、显微硬度计和电化学工作站,研究了涂层的相结构、微观组织、元素分布、硬度及耐腐蚀性能。结果表明,涂层与基材结合良好,基材中Al元素在熔池搅拌作用下上浮,使沉积层呈FCC相和BCC相;显微组织为典型的枝晶结构,Cu元素在枝晶间富集;涂层平均显微硬度为528HV_(0.2),约是基材的5倍;AlCrFeCoNiCu涂层在3.5% NaCl溶液中的腐蚀特征为点蚀和晶间腐蚀,耐腐蚀性优于基材。激光沉积制备的AlCrFeCoNiCu高熵合金可以改善铝合金表面性能。     

Co3O4 纳米棒的溶剂热合成及形成机理分析

以Co(NO3) 2 ·6H2 O为主要原料 ,H2 O2 为氧化剂 ,在油酸和正十二烷烃的混合溶液中 ,利用溶剂热技术于 160℃反应 10h ,成功地合成了Co3O4 纳米棒 .用X射线粉末衍射 (XRD)、透射电子显微镜 (TEM)和振动样品磁强计 (VSM)等手段对产物进行了表征 ,并对产物的形成机理进行了初步分析 .结果表明 ,产物为立方型Co3O4 纯相 ,优化实验条件可得到棒状Co3O4 ,其平均尺寸约为 2 5× 10 0nm .Co3O4 纳米棒的形成与微乳液的棒状结构有关 ,棒状结构的胶束是形成这种纳米棒的模板 .在室温下 ,产物的矫顽力 (Hc)为 3 5 3Oe ,剩余磁化率 (Mr)为 0 .4emu/g .     

电磁搅拌辅助激光熔覆钴基合金涂层的抗热腐蚀性能

在激光熔覆制备钻基合金涂层的过程中引入电磁搅拌,研究了有无磁场辅助时涂层表面在750℃/100 h混合盐条件下的抗热腐蚀性能。研究结果表明,无磁场辅助的涂层的抗热腐蚀性能较差,热腐蚀60 h后涂层内部出现严重的内氧化和内硫化,并出现严重失重现象。经磁场辅助的熔覆层形成了稳定性好的保护性Cr_2 O_3及Co Cr_2 O_4尖晶石氧化膜,有效抑制了腐蚀液中S和Cl~-的向内侵入,在整个腐蚀阶段样品未出现严重开裂剥落现象。电磁搅拌的加入有效细化并均化了熔覆层的显微组织,促进了涂层表面保护性氧化膜的快速形成,阻止了熔盐的扩散,可进一步提高涂层的抗热腐蚀性能。     

过渡金属1,6-己二胺缩双水杨醛Schiff碱、配合物的固相合成与表征

在低热固相条件下,氢氧化物M(OH)2(M=Co,Cu,Zn)与1,6-己二胺缩双水杨醛Schiff碱配体(H2L,C20H24N2O2)反应制得了配合物ML。元素分析、X射线衍射、差热-热重分析、红外光谱、紫外光谱和摩尔电导进行表征,确定了配合物的化学组成,推断其结构。     

Thermal fatigue resistance of non-smooth cast iron treated by laser cladding with different self-fluxing alloys

In order to enhance the thermal fatigue resistance of gray cast iron with non-smooth surface further, the non-smooth units in samples’ surface layer were fabricated by laser cladding with Fe-based, Ni-based and Co-based self-fluxing alloy powders, respectively, instead of laser melting technique. The microstructure, phase structure, microhardness and thermal fatigue behaviors were investigated by means of scanning electron microscope, X-ray diffraction and Vickers microhardness tester, as well as self-restrain thermal fatigue test. The results indicated that laser cladding with self-fluxing alloy powders was beneficial to reinforcing the units so as to enhance the thermal fatigue resistance of non-smooth samples further. Of all samples tested, those treated by laser cladding with Co-based (Co50) alloy had the best thermal fatigue resistance.     

Preparation of a novel Ni/Co-based alloy gradient coating on surface of the crystallizer copper alloy by laser

A high wear-resistant gradient coating made of Ni/Co-based alloys on the surface of a Cu alloy substrate was synthesized using a YAG laser induced in situ reaction method. The coating consists of three layers: the first is a Ni-based alloy layer, the second and third are Co-based alloy layers. The microhardness increases gradually from 98 HV in the Cu alloy substrate to the highest level of 876 HV in the third layer. The main phase of the Co-based alloy layer is CoCr₂(Ni,O)₄, coexisting with the Fe₁₃Mo₂B₅, Cr(Co(Mo, and FeCr_0.29Ni_0.16C_0.06 phases. Wear tests indicate that the gradient coating has good bond strength and wear properties with a wear coefficient of 0.31 (0.50 for the Cu alloy substrate). Also, the wear loss of the coating is only 0.01 g after it has been abraded for 60 min, which is only one fifth of that of the Cu alloy of the crystallizer. Wear tests of the gradient coating reveal good adhesive friction and wear properties when sliding against steel under dry conditions. This novel technique may have good application to make an advanced coating on the surface of the Cu alloy crystallizer in a continuous casting process.     

铁基合金激光熔覆层高温润滑磨损性能

 为提高40Cr合金钢的表面耐磨性,采用预置激光熔覆法在40Cr基体表面制备铁基合金涂层, 利用扫描电镜观察分析熔覆层显微组织形貌,用显微硬度仪测试熔覆层截面显微硬度,用摩擦磨损试验机测定在润滑条件下基体、熔覆层的摩擦系数随温度变化的规律。研究结果表明:熔覆层与基体实现良好冶金结合,熔覆层横截面微观组织呈现平面晶、树枝晶和胞状晶分布;熔覆层硬度值介于617.5~926.6 HV0.2之间,基体硬度介于205.2~278.2 HV0.2之间;在200 ℃以下,熔覆层摩擦系数在磨程中趋于平稳,在0.1附近轻微波动,小于基体平均摩擦系数;当温度超过200 ℃,油膜分解,引发润滑失效,磨损方式向干摩擦转化,磨损机理从微切削磨损主导向粘着磨损、磨粒磨损和氧化磨损复合磨损方式转化。     

Characteristics of cobalt-based alloy coating on tool steel prepared by powder feeding laser cladding

Co-based alloy coating was deposited on tool steel by powder feeding laser cladding. Sections of such coatings were examined to reveal their microstructures and phases using scanning electron microscope (SEM) and X-ray diffractometer (XRD). The results showed that the prime phase (γ-Co dendrite) and other phases, including Cr₂₃C₆, Co₇W₆, and CrNi existed in the coatings. Some different solidification morphologies, such as planar (at the interface), cellular and dendrite formed, varying from the interface to the surface. Fine microstructures of γ-Co dendrite and lamellar eutectic in dendritical regions strengthened the coatings. Besides, the effects of aged treatment on the microstructure and microhardness of the surface coating were studied. Aged treatment led to the precipitations of some carbide particles (Cr₇C₃ and Co₃C) and boride particles (Co₄B) from the cladded coating, causing an increase in microhardness in the laser-cladded coating.     

The comparative study of thermal fatigue behavior of laser deep penetration spot cladding coating and brush plating Ni-W-Co coating

For improving the thermal fatigue behavior of hot work die steel in engineering application, the present work compare the influence of thermal fatigue resistance by the two different surface modified processes, the laser deep penetration spot cladding (LDPSC) and brush plating on the Cr12MoNi hot rolling tool steel. The thermal fatigue tests were fulfilled by heating and quenching in water at a cycle period of 2 min. Before and after thermal fatigue testing, the microhardness distribution profile and microstructure of LDPSC have been investigated. The results show that the LDPSC can be divided to three zones: cladding zone, alloying zone and heat affected zone. The major phases in cladding zone consist of Fe₃C, Cr₇C₃, Cr₂₃C₆ and martensite. The oxidation resistance and thermal stability of brush plating Ni-W-Co coating and reference materials has been determined. The results of thermal fatigue testing show that LDPSC and brush plating Ni-W-Co coating can improve thermal fatigue resistance as compared to the reference material. The brush plating Ni-W-Co coating is more effective than the former owing to its higher thermal stability, oxidation resistance, superfine grain, high-density dislocation in microstructure and combination of strength and ductility.     

激光熔覆TiC-Ni复合涂层的摩擦磨损性能和磨损机制研究

利用光学显微镜和扫描电镜观察了钛合金表面TiC-Ni激光熔覆层的宏观形貌和微观组织,测试了激光熔覆层的硬度、摩擦系数和磨损量。利用SEM观察了磨损的表面形貌和磨屑的形貌,分析了激光熔覆层的磨损机制。结果表明:激光熔覆层组织致密,无气孔和裂纹,硬度为基材的3倍;激光熔覆层的摩擦系数随环境压力的降低而提高,磨损量随环境压力的降低、法向载荷的增加而增加;低载时为轻微的磨粒磨损,高载时为严重的剥层磨损。     

铁基合金激光熔覆层的高温磨损性能

 为提高40Cr钢表面耐磨性,采用预置激光熔覆法在40Cr基体表面制备Fe基涂层,利用HT-500摩擦磨损实验机测定干摩擦条件下,基体和熔覆层的摩擦因数随温度变化的规律。利用表面粗糙度轮廓仪测量磨痕的深度和宽度,SEM观察熔覆层以及磨痕的显微组织形貌,使用HV-1000型显微硬度仪检测基体和熔覆层结合部分的硬度。研究结果表明:熔覆层平均显微硬度值达到373.8HV(0.2);显著高于基体硬度198.4HV(0.2)。在干摩擦条件下,随着温度升高,磨损过程逐渐变平缓,平均摩擦因数降低,磨损率增加,耐磨性下降;在350~400 ℃之间,熔覆层磨损性能优于基体。     

Microstructures and properties of high Cr content coatings on inner surfaces of carbon steel tubular components prepared by a novel mechanical alloying method

In the present work, a novel mechanical alloying method was developed to prepare high Cr content coatings on the inner surface of carbon steel tubular components using a planetary ball mill. The microstructure and elemental and phase composition of mechanically alloyed coatings at different processing conditions were studied using SEM, XRD, and EDX. It showed that a proper increase in the applied milling time and the disc rotation speed favored the improvement in the thickness, surface smoothness, densification level, and microstructural homogeneity of the deposited coatings. With processing conditions optimized (rotation speed of 500 rpm and milling time of 10 h), a fully dense, 120 μm thick, high Cr content coating, consisting of metal Cr and Fe-20Cr solid solution alloy, was metallurgically bonded to the inner substrate. Comparative studies on the microhardness, corrosion resistance, and anti-oxidation capability of carbon steel substrates with and without coatings were performed. It was found that the maximum microhardness of the coating reached HV_0.1667, showing a threefold improvement upon the substrate. The coated surfaces exhibited favorable resistance against corrosion and thermal oxidation as compared with the bare substrate. Based on two important action mechanisms (i.e., friction effect and impact effect) associated with a planetary ball mill, a reasonable mechanism was presented for the formation of mechanically alloyed coatings on inner surfaces of tubular components.     

稀土CeO_2对镍基纳米Al_2O_3激光熔覆复合涂层组织和性能的影响

采用激光熔覆技术在45钢基体上制备了不同CeO2含量的镍基纳米Al2O3复合涂层,对熔覆层进行了微观组织分析和显微硬度测试。结果表明,随着CeO2含量的增加,熔覆层组织由亚共晶向共晶组织转变;加入1.0%CeO2对镍基纳米Al2O3熔覆层的组织起到明显的细化和净化作用,枝晶生长的方向性减弱,组织趋向均匀,熔覆涂层的显微硬度值比未加稀土的涂层提高了60-95HV0.2。