热处理工艺对Cu-Fe-P合金显微硬度及导电率的影响

自行设计了一种Cu Fe P系合金 ,研究了固溶温度、时效温度以及时效时间对该合金显微硬度和导电率的变化规律。结果表明 ,该合金的最佳固溶处理工艺为 90 0℃× 70min ,并在 4 0 0℃× 2h时效条件下具有较好的综合性能 ,显微硬度可达到 10 6 4HV0 1,导电率可达 82 3%IACS。试验结果还表明 ,在 4 0 0℃、5 0 0℃下时效 ,随着时间的延长合金显微硬度会出现两个峰值。     

Magnetic and mechanical properties of FeSi alloys with high Si content

The chemical vapor（CVD） deposition-diffusion method was applied to prepare FeSi alloys with high silicon content up to 6.5%. In spite of various deposition and post-annealing, the sample remains α-Fe bcc structure. The cross section of the composition was analyzed to evaluate the Si content and distribution before and after annealing. The results show that the soft magnetic properties are improved by increasing the silicon content. For the samples containing about 6.5% Si, the coercivity decreases to 60 from 237.3 A/m of the original. It is also obtained that, in addition to the Si content, Si distribution has a large influence on the core loss due to the effect of resistivity. The micro-hardnesses were also evaluated along the cross-section after various annealings.     

M2高速钢强脉冲离子束表面改性及其耐磨耐蚀性

针对陶瓷梯度涂层性能优良,在大气氛围下等离子喷涂制备涂层会受到空气氧化这一情况,在可控气氛（Ar气）中采用等离子喷涂的方法制取了NiCrBSi/Al₂O₃的梯度涂层,并且与大气条件下制取的NiCrBSi/Al₂O₃的梯度涂层进行对比.借助扫描电子显微镜（SEM）、x 射线衍射仪（XRD）对涂层的组织分布、相结构进行分析.结果表明：在Ar气和大气中梯度涂层的组织内部都没有明显的界面,实现了组织的连续变化;在Ar气中制取的梯度涂层的组织更加致密,被氧化的程度更低,质量更好.     

TiN/Cr/Al2O3 and TiN/Al2O3 hybrid coatings structure features and properties resulting from combined treatment

New experimental results are presented on the structure and the elemental and phase composition of hybrid coatings, which were deposited on a substrate of AISI 321 stainless steel using a combination of plasma-detonation, vacuum-arc and subsequent High-Current Electron Beam (HCEB) treatment. We found that an increase in energy density intensified mass transfer processes and resulted in changes in aluminum oxide phase composition (γ → α and β → α). Also we observed the formation of a nanocrystalline structure in Al₂O₃ coatings. Electron beam treatment of a hybrid coating surface induced higher adhesion, decreased the intensity of surface wear and increased corrosion resistance in a sulphuric acid solution. The corrosion resistance of the coatings was studied in several electrolytic solutions (0.5 M H₂SO₄, 1 M HCl, 0.75 M NaCl) using electrochemical techniques. In most cases the corrosion resistance was improved, except those in NaCl solutions. The nano-hardness of the protecting coating was 13 GPa before electron beam melting and 9 GPa after it (as a result of TiN and Al₂O₃ sub-layers mixing).     

Friction stir welding of AZ31 magnesium alloy

Friction stir welding (FSW) is an new solid-phase joining technology which has more advantages over fusion welding methods in welding of aluminum and other non-ferrous metals. The effects of welding parameters on mechanical properties and microstructure during friction stir welding of AZ31 magnesium alloy were studied in this paper. Microstructures and mechanical properties of the joints were investigated by means of optical microscopy, scanning electric microscopy ( SEM ) , micro-hardness analysis, and tensile test. Experimental results show that the magnesium alloy can be successfully welded by FSW method, and the ultimate tensile strength (UTS) of FSW joint reaches up to 90 percent of base metal. The microstructures of welded joints exhibit the variation from dynamically recrystallized fine grains to greatly deformed grains. Hardness in nugget zone was found lower than the base metal but not too obvious.     

Investigation of process parameters influence in abrasive water jet cutting of D2 steel

In the present experimental study, abrasive water jet (AWJ) cutting tests were conducted on D2 steel by different jet impingement angles and abrasive mesh sizes. The experimental data was statistically analyzed using the simos–grey relational method and ANOVA test. In addition, the outcome of influencing cutting parameters, namely jet pressure, jet impingement angle, and abrasive mesh size on the different response parameters, namely, the jet penetration, material removal rate, taper ratio, roughness, and topography, were studied. Micro-hardness test and surface morphology analysis were employed to examine the D2 cut surfaces at different AWJ cutting conditions. The chemical element study was performed to determine the abrasive particle contamination in the AWJ kerf wall cut surfaces. The ANOVA test result indicated the jet pressure and jet impingement angle as the influencing process parameters affecting the various performance characteristics of AWJ cutting. The overall AWJ cutting performance of the D2 steel has been improved through proper identification of the optimal process parameter settings, namely jet pressure 225?MPa, abrasive mesh size #100, and jet impingement angle 70° by the simos–grey relational analysis.     

Pulse current co-deposition of Ni-WS2 nano-composite film for solid lubrication

This study was undertaken to observe the effect of nano-composite coating on steel surface for enhancing its tribological properties. In the investigation, EN31 steel surfaces were coated with nano-composite (Ni-WS₂) by pulse current co-deposition process in order to improve the tribological properties of the surface. The coatings were prepared according to different parameter settings. The effect of variations on coating thickness, microstructure, surface morphology, microhardness and tribological properties was observed. The maximum coating thickness of 117?µm with 8% by weight of WS₂ particle concentration could be attained with the following parameter settings: applied voltage: 5?V; pulse frequency: 20?Hz; WS₂ concentration: 20?g/l; duty factor: 0.6 and bath temperature: 50°C. The average friction coefficient of the deposited surface was 0.11, which is significantly less than that of the EN31 steel surface (average coefficient of friction >?0.5).     

Effect of heat treatment on the mechanical properties of FeCoZrWB bulk metallic glass

A Fe61Co10Zr5W4B20 bulk metallic glass (BMG) with a diameter of 2 mm was prepared by using copper mould suction casting. The X-ray diffraction (XRD), differential scanning calorimetry (DSC), micro-hardness and compression tests were adopted to investigate the structure, thermal stability, especially, the effect of heat treatment on the micro-hardness and compression strength of this BMG. The BMG exhibits micro-hardness of about 1 207 Hv and compression fracture strength of about 1 707.6 MPa. After being annealed below the onset of crystallization temperature, the micro-hardness almost keeps constant. But after being annealed above the peak of crystallization temperature, the micro-hardness increases firstly and then declines gradually with the elongation of annealing time. However, annealed for the same period of time, the micro-hardness will increase with the rise of annealing temperature, while the compression fracture strength will apparently decrease.     

新旧混凝土界面结合状态研究

研究了在不同的界面干湿状态下，几种常见的修补材料和界面剂对新旧混凝土界面结合强度的影响。运用拉拔强度评价新旧混凝土界面结合状态，并借助显微硬度仪测量界面处的显微硬度值对试验结果进行了验证和分析。结果表明，在界面处于不同的干湿状态时，提高新混凝土的强度可使结合强度略有增大。在修补材料中掺入纤维会明显提高界面结合强度，且聚丙烯纤维要优于碳纤维．使用界面剂后界面干湿程度对界面结合强度影响减小。     

钨靶件试样的热等静压工艺试验研究

分别选用锆和不锈钢作为ADS固体W靶的包壳材料，采用真空电子束焊制备了W-Zr及W-S.S.的小样品，在1200、1300、1400℃和180MPa下研究它们的热等静压（HIP）工艺条件。对HIP后的试样分别进行结合面微观观察、扩散层厚度，成分及其显微硬度的测试分析。结果表明：钨-锆及钨-不锈钢包壳管均结合紧密良好，未见间隙或微裂纹,也未见钨的晶粒长大；在钨-锆包壳管结合面处主要是锆向钨扩散，而钨向锆扩散很少。在本试验条件下，其扩散层深度在6-9µm；钨-不锈钢包壳管结合面处钨和铁的扩散明显，其扩散层深度约为13μm，而铬和镍的扩散较少；W-Zr及W-S.S.结合面的显微硬度值也表明在钨-锆及钨-不锈钢的结合面上有扩散层存在；在1300℃，180MPa进行等静压后，不锈钢包壳管的部分区域熔化，因此，1200℃，180MPa适合于钨-不锈钢，而1300℃，180Mpa最适合于钨-锆。