高速电弧喷涂Fe-Al/Cr3C2复合涂层的组织与性能

采用Fe-Al/Cr3C2粉芯丝材和高速电弧喷涂技术(HVAS)原位合成了铁铝金属间化合物涂层,并研究了涂层的显微组织与性能.结果表明,高速电弧喷涂Fe-Al/Cr3C2涂层中生成了多种物相,主要是Fe3Al和FeAl相,同时还包括Fe3C硬质点相及FeO*Al2O3和Cr2O3氧化物相等.涂层具有很高的热震结合强度及相对基体较高的显微硬度,密度和孔隙率较低.     

高速电弧喷涂Fe-Al金属间化合物涂层

采用粉芯丝材和高速电弧喷涂技术(HVAS)制备了Fe-Al金属间化合物涂层,并研究了涂层的显微组织和室温至650℃的滑动摩擦磨损性能.结果表明:Fe-Al涂层的平均成分为Fe-20.0Al-14.1O(摩尔分数,%),主要相是Fe3Al,FeAl,α-Fe,Al2O3及少量Al;涂层具有较高的结合强度和硬度、较低的孔隙率及较高的高温耐磨性;高温下磨损面形成了大面积的氧化物保护层,降低了涂层的摩擦因数,而剥层磨损是涂层的主要磨损机制.涂层中Fe3Al和FeAl金属间化合物相较高的高温强度和硬度能有效地阻碍裂纹的产生、扩展及扁平颗粒的断裂,从而使Fe-Al涂层表现出优异的高温耐磨性.     

高速电弧喷涂再制造曲轴FeAlCr/3Cr13复合涂层的性能研究

高速电弧喷涂再制造曲轴的使用寿命与涂层的结合强度和耐磨性有很大的关系。为了提高涂层的性能,研究了新型FeAlCr/3Cr13复合涂层的组织结构和力学性能,采用扫描电镜(SEM)、能谱仪(EDAX)和X射线衍射仪分析了涂层的微观结构、相组成和残余应力。利用显微硬度计和CETR微动摩擦磨损试验机等试验设备对涂层的力学性能进行了分析。结果表明,喷涂FeAlCr粉芯丝材作为打底层,合金元素反应充分,复合涂层组织均匀、致密,空隙率约9.87%。复合涂层相组成主要由韧性相α-Fe和硬质相Cr23C6、(Fe,Cr)固溶体组成,氧化物含量较低,约3.2%,复合涂层平均残余应力较小,约67.6 MPa,平均显微硬度HV0.1为4000 MPa,结合强度约46.6 MPa,油润滑高载摩擦条件下复合涂层表现出较好的耐磨性能。     

高速电弧喷涂Fe-Al/WC复合涂层的组织结构及其滑动磨损性能研究

采用粉芯丝材和高速电弧喷涂技术(HVAS)制备了Fe-Al／WC金属间化合物基复合涂层，并研究了涂层的显微组织和从室温至650℃的滑动磨损性能。结果表明，涂层的成分为Fe-13．87Al-17．27C-3．35W-2．59Ni-1．27Cr-18．140(％)，主要相是Fe3Al、FeAl和α-Fe，还有少量WC、W2C和A12O3；添加WC硬质相后提高了复合涂层的平均硬度，从而提高了复合涂层的耐磨性；高温下磨损面形成了大面积的氧化物保护层，降低了复合涂层的摩擦因数，分析认为剥层磨损是复合涂层的主要磨损机理。涂层中Fe3Al和FeAl金属间化合物相较高的高温强度和硬度，能有效地阻碍裂纹的产生、扩展及扁平颗粒的断裂，从而使复合涂层表现出优异的高温耐磨性。高速电弧喷涂技术配-Fe-Al／WC粉芯丝材是一种新型、优质、高效、低成本的耐高温涂层制备技术，具有很大的应用潜力。     

高速电弧喷涂Fe-Al/Cr3C2复合涂层的组织结构研究

采用粉芯丝材结合高速电弧喷涂(HVAS)技术原位合成了Fe-Al/Cr3C2复合涂层,使用SEM﹑TEM﹑X-Ray等手段研究了涂层的组织和相结构.结果表明,涂层机械结合紧密;涂层具有致密的层状结构,扁平颗粒小,氧化物膜细小,硬质点相分布均匀,孔隙率低;在涂层中存在着多种结构复杂的组织和化合物相,基体相FeAl和Fe3Al,硬质相Cr3C2、Fe3C及AlFe3C0.5,氧化物相FeO·Al2O3、Cr2O3;不同物质相之间存在着平行的晶体学取向关系,从而提高了涂层的力学性能.     

热处理对铁铝涂层相组成及滑动磨损性能的影响

采用粉芯丝材和高速电弧喷涂技术得到的铁铝金属间化合物涂层 ,研究了 5 5 0℃和 80 0℃热处理对涂层相组成及滑动磨损性能的影响。结果表明 ,涂层的主要组成相是铁铝金属间化合物 (FeAl和Fe3 Al)和α Fe ,另有少量的Al2 O3 和Al。热处理后 ,一部分Fe3 Al将转变成FeAl,对涂层的显微硬度有明显的影响。剥层磨损是铁铝涂层的主要磨损机理。通过热处理提高涂层的显微硬度 ,将有利于提高涂层的耐磨性     

高速电弧喷涂铁铝涂层的组织和性能

采用粉芯丝材和高速电弧喷涂技术（HVAS）原位合成了铁铝金属化合物涂层，并研究了涂层的显微组织和性能。结果表明，铁铝涂层的成分（原子分数，%）为Fe-20.0Al-14.1O，主要相是Fe3Al、FeAl和a-Fe相，还有少量Al2O3。涂层中的Fe3Al和FeAl具有较高的有序度。涂层具有相对较高的结合强度和显微硬度，以及较低的密度和孔隙率。     

电站锅炉防护用Fe-Al/Cr3C2涂层性能研究及应用

使用高速电弧喷涂技术结合Fe-Al/Cr3C2粉芯丝材制备了铁铝金属间化合物涂层,对涂层的常温与高温性能进行了研究,并进行了应用的探索.结果表明,Fe-Al/Cr3C2复合涂层具有典型的层状结构、较高的结合强度和硬度;涂层的耐高温冲蚀性能良好,温度升高、角度增大,冲蚀性能提高;由于Cr2O3的存在以及涂层结合能的提高,Fe-Al/Cr3C2涂层的高温抗腐蚀性能较高;其常温和高温耐磨损性能也较高;应用研究表明,该涂层适合用于电站锅炉＂四管＂的防护.     

Fe基电弧喷涂层的热导率与耐磨性

设计了FeCrAl、FeCrB两种Fe基粉芯丝材,采用XRD、OM、SEM、TEM、激光脉冲热常数测试仪、磨粒磨损试验机等对高速电弧喷涂层的微观组织结构、热导率、耐磨性进行表征,并与工程中常用的3Cr13喷涂层进行对比研究。结果表明,制备的喷涂层较致密,孔隙率低于3.3%。丝材中加入Al、B元素可有效减少涂层中氧化物的生成,而B元素具有更强的除氧效果。氧化物含量低的涂层具有较高的热导率,其中氧化物含量最低的FeCrB涂层室温热导率达8.99 W·m-1·K-1。所设计的FeCrB涂层的显微硬度达到828.3 HV0.1,相对耐磨性为3Cr13涂层的3.7倍。     

高速电弧喷涂FeCrAl/Ni95Al复合涂层的性能

利用电弧喷涂技术在45钢基体表面制备了FeCrAl/Ni95 Al复合涂层,先喷涂Ni95Al打底层增强涂层的结合强度,FeCrAl涂层作为工作层.利用扫描电镜(SEM)、能谱仪(EDS)、X射线衍射仪、拉伸试验机、显微硬度计和CETR微动摩擦磨损试验机研究了涂层的显微组织、力学性能及摩擦磨损性能.结果表明,复合涂层组织均匀致密,主要由Fe3Al金属间化合物、(Fe,Cr)固溶在涂层基体中.涂层结合强度为43 MPa,硬度值为530 HVO.1,涂层磨损失效形式为剥落和氧化磨损.     

Effects of Post-weld Heat Treatment on Microstructure,Mechanical Properties and the Role of Weld Reinforcement in 2219 Aluminum Alloy TIG-Welded Joints

In as-welded state, each region of 2219 aluminum alloy TIG-welded joint shows diff erent microstructure and microhardness due to the diff erent welding heat cycles and the resulting evolution of second phases. After the post-weld heat treatment, both the amount and the size of the eutectic structure or θ phases decreased. Correspondingly, both the Cu content in α-Al matrix and the microhardness increased to a similar level in each region of the joint, and the tensile strength of the entire joint was greatly improved. Post-weld heat treatment played the role of solid solution strengthening and aging strengthening. After the post-weld heat treatment, the weld performance became similar to other regions, but weld reinforcements lost their reinforcing eff ect on the weld and their existence was more of an adverse eff ect. The joint without weld reinforcements after the post-weld heat treatment had the optimal tensile properties, and the specimens randomly crack in the weld zone.     

The First Phase of the SRIF Industrialized Base in ＂West Area＂ Has Been Put into Operation

After nearly two years＇ tense construction, the first phase of industrialized base of Shenyang Research Institute of Foundry （SRIF）, located at the Tiexi Casting and Forging Industrial Park in the west of Tiexi District, has now been completed and formally put into operation.     

新型的治疗阿尔茨海默氏症药物(1-二甲基磷酰基-2,2,2-三氯)-乙基-1-醇烟酸醋对体外神经细胞的作用

目的: 观察本实验室合成的一种治疗阿尔茨海默氏症(AD)的药物(1-二甲基磷酰基-2, 2, 2 -三氯)-乙基^-1-醇烟酸醋(NMF),对体外培养的皮层神经细胞活性的影响以及对海人藻酸(KA)所致的神经损伤的保护作用。方法: 采用体外培养皮层神经元的方法,解剖分离 15 d胚胎小鼠皮层神经细胞, 接种于 96孔板,48 h 后加药并培养 72 h,以 MIT 法 观察 NMF 对小鼠皮层神经细胞活性的影响;同时将接种于 24 孔板的细胞预先给予 NMF,d 3 时加或不加KA处理后,以台盼蓝染色鉴别并计数死、活细胞,可得出细胞的存活率。结果: NMF 明显促进胎鼠皮层神经元活性,其中 NMF1、0. 1、10nmol·L^-1促进神经元活性增殖率分别高达 34.7%、37.4%、36. 7%, NMF 明显促进正常胎鼠皮层神经元存活卒,与对照组比较,10nmol·L^-1 NMF 对皮层神经元的存活率分别提高 39.3%、73.5%。 NMF能显著 对抗 KA 所致的神经元损伤,与 KA 损伤组相比, NMF0.1、10、10nmol·L^-1对损伤皮层神经元的保护率分别为 77.30%、80.10%、84.15%。结论: NMF 明 显促进胎鼠皮层神经元的洁性、提高正常皮层神经元,的存活卒,并能有效地保护KA所致的神经元损伤,提示 NMF 是一种很有潜力的治疗 AD 的药物。     

THERMODYNAMICS STUDY ON THE DECOMPOSITION OF CHROMITE WITH KOH

Institute of Process Engineering, Chinese Academy of Sciences, China, has proposed a method for oxidative leaching of chromite with potassium hydroxide. Understanding the mechanism of chromite decomposition, especially in the potassium hydroxide fusion, is important for the optimization of the operating parameters of the oxidative leaching process. A traditional thermodynamic method is proposed and the thermal decomposition and the reaction decomposition during the oxidative leaching of chromite with KOH and oxygen is discussed, which suggests that chromite is mainly destroyed by reactions with KOH and oxygen. Meanwhile, equilibrium of the main reactions of the above process was calculated at different temperatures and oxygen partial pressures. The stable zones of productions, namely, K2CrO4 and Fe2O3, increase with the decrease of temperature, which indicates that higher temperature is not beneficial to thermodynamic reactions. In addition, a comparison of the general alkali methods is carried out, and it is concluded that the KOH leaching process is thermodynamically superior to the conventional chromate production process.     

INFLUENCE OF HEAT TREATMENT ON DAMPING BEHAVIOUR OF THE MAGNESIUM WROUGHT ALLOY AZ61

The effect of isochronal heat treatments for 1h on variation of damping, hardness and microstructural change of the magnesium wrought alloy AZ61 was investigated. Damping and hardness behaviour could be attributed to the evolution of precipitation process. The influence of precipitation on damping behaviour was explained in the framework of the dislocation string model of Granato and Lücke.     

Three-Dimensional Growth of Coherent Ferrite in Austenite: A Molecular Dynamics Study

Coherent second phase often exhibits anisotropic morphology with specifi c orientations with respect to both the second and the matrix phases. As a key feature of microstructure, the morphology of the coherent particles is essential for understanding the second-phase strengthening eff ect in various industrial alloys. This letter reports anisotropic growth of coherent ferrite from austenite matrix in pure iron based on molecular dynamics simulation. We found that the ferrite grain tends to grow into an elongated plate-like shape, independent of its initial confi guration. The fi nal shape of the ferrite is closely related to the misfi t between the two phases, with the longest direction and the broad facet of the plate being, respectively, consistent with the best matching direction and the best matching plane calculated via the Burgers vector content(BVC) method. The strain energy calculation in the framework of Eshelby's inclusion theory verifi es that the simulated orientation of the coherent ferrite is energetically favorable. It is anticipated that the BVC method will be applicable in analysis of anisotropic growth and morphology of coherent second phase in other phase transformation systems.     

Effect of Rare Earth Doping on Impedance,Modulus and Conductivity Properties of Multiferroic Composites:0.5(BiLa_xFe_(1-x)O_3)–0.5(PbTiO_3)

The Lanthanum-doped bismuth ferrite–lead titanate compositions of 0.5(Bi LaxFe1-xO3)–0.5(Pb Ti O3)(x = 0.05,0.10,0.15,0.20)(BLxF1-x-PT) were prepared by mixed oxide method.Structural characterization was performed by X-ray diffraction and shows a tetragonal structure at room temperature.The lattice parameter c/a ratio decreases with increasing of La(x = 0.05–0.20) concentration of the composites.The effect of charge carrier/ion hopping mechanism,conductivity,relaxation process and impedance parameters was studied using an impedance analyzer in a wide frequency range(102–106Hz) at different temperatures.The nature of Nyquist plot confirms the presence of bulk effects only,and non-Debye type of relaxation processes occurs in the composites.The electrical modulus exhibits an important role of the hopping mechanism in the electrical transport process of the materials.The ac conductivity and dc conductivity of the materials were studied,and the activation energy found to be 0.81,0.77,0.76 and 0.74 e V for all compositions of x = 0.05–0.20 at different temperatures(200–300 °C).     

Using Finite Element and Contour Method to Evaluate Residual Stress in Thick Ti-6Al-4V Alloy Welded by Electron Beam Welding

This work was to reveal the residual stress profile in electron beam welded Ti-6Al-4V alloy plates(50 mm thick) by using finite element and contour measurement methods.A three-dimensional finite element model of 50-mmthick titanium component was proposed,in which a column–cone combined heat source model was used to simulate the temperature field and a thermo-elastic–plastic model to analyze residual stress in a weld joint based on ABAQUS software.Considering the uncertainty of welding simulation,the computation was calibrated by experimental data of contour measurement method.Both test and simulated results show that residual stresses on the surface and inside the weld zone are significantly different and present a narrow and large gradient feature in the weld joint.The peak tensile stress exceeds the yield strength of base materials inside weld,which are distinctly different from residual stress of the thin Ti-6Al-4V alloy plates presented in references before.     

Microstructures and Tensile Properties of Ultrafine-Grained Ni–(1–3.5) wt% SiC_(NP) Composites Prepared by a Powder Metallurgy Route

Silicon carbide nanoparticle-reinforced nickel-based composites(Ni–Si CNP),with a Si CNPcontent ranged from1 to 3.5 wt%,were prepared using mechanical alloying and spark plasma sintering.In addition,unreinforced pure nickel samples were also prepared for comparative purposes.To characterize the microstructural properties of both the unreinforced pure nickel and the Ni–Si CNPcomposites transmission electron microscopy(TEM) was used,while their mechanical behavior was investigated using the Vickers pyramid method for hardness measurements and a universal tensile testing machine for tensile tests.TEM results showed an array of dislocation lines decorated in the sintered pure nickel sample,whereas,for the Ni–Si CNPcomposites,the presence of nano-dispersed Si CNPand twinning crystals was observed.These homogeneously distributed Si CNPwere found located either within the matrix,between twins or on grain boundaries.For the Ni–Si CNPcomposites,coerced coarsening of the Si CNPassembly occurred with increasing Si CNPcontent.Furthermore,the grain sizes of the Ni–Si CNPcomposites were much finer than that of the unreinforced pure nickel,which was considered to be due to the composite ball milling process.In all cases,the Ni–Si CNPcomposites showed higher strengths and hardness values than the unreinforced pure nickel,likely due to a combination of dispersion strengthening(Orowan effects) and particle strengthening(Hall–Petch effects).For the Ni–Si CNPcomposites,the strength increased initially and then decreased as a function of Si CNPcontent,whereas their elongation percentages decreased linearly.Compared to all materials tested,the Ni–Si CNPcomposite containing 1.5% Si C was found more superior considering both their strength and plastic properties.     

Directional Growth of Tin Crystals Controlled by Combined Solute Concentration Gradient Field and Static Magnetic Field

A new method was introduced to achieve directional growth of Sn crystals. Microstructures in liquid(Pb)/liquid(Sn) diffusion couples were investigated under various static magnetic fields. Results show that the β-Sn crystals mainly reveal an irregular dendritic morphology without or with a relatively low static magnetic field(B0.3 T). When the magnetic field is increased to 0.5 T, the β-Sn dendrites close to the final stage of growth begin to show some directional character. With a further increase in the magnetic field to a higher level(0.8–5 T), the β-Sn dendrites have an enhanced directional growth character, but the dendrites show a certain deflection. As the magnetic field is increased to 12 T, the directional growth of the β-Sn dendrites in the center of the couple is severely destroyed. The mechanism of the directional growth of the β-Sn crystals and the deflection of the β-Sn crystals with the application of static magnetic field was tentatively discussed.