Preventing formation of intermetallic compounds in ultrasonic-assisted Sn soldering of Mg/Al alloys through pre-plating a Ni coating layer on the Mg substrate

Magnesium and aluminum alloys are widely used in various industries because of their excellent properties,and their reliable connection may increase application of materials.Intermetallic compounds(IMCs)affect the joint performance of Mg/Al.In this study,AZ31 Mg alloy with/without a nickel(Ni)coating layer and 6061 Al alloy were joined by ultrasonic-assisted soldering with Sn-3.0Ag-0.5Cu(SAC)filler.The effects of the Ni coating layer on the microstructure and mechanical properties of Mg/Al joints were systematically investigated.The Ni coating layer had a significant effect on formation of the Mg_(2)Sn IMC and the mechanical properties of Mg/Al joints.The blocky Mg_(2)Sn IMC formed in the Mg/SAC/Al joints without a Ni coating layer.The content of the Mg_(2)Sn IMC increased with increasing soldering temperature,but the joint strength decreased.The joint without a Ni coating layer fractured at the blocky Mg_(2)Sn IMC in the solder,and the maximum shear strength was 32.2 MPa.By pre-plating Ni on the Mg substrate,formation of the blocky Mg_(2)Sn IMC was inhibited in the soldering temperature range 240–280℃and the joint strength increased.However,when the soldering temperature increased to 310℃,the blocky Mg_(2)Sn IMC precipitated again in the solder.Transmission electron microscopy showed that some nano-sized Mg_(2)Sn IMC and the(Cu,Ni)_(6)Sn_(5)phase formed in the Mg(Ni)/SAC/Al joint soldered at 280℃,indicating that the Ni coating layer could no longer prevent diffusion of Mg into the solder when the soldering temperature was higher than 280℃.The maximum shear strength of the Mg(Ni)/SAC/Al joint was 58.2 MPa for a soldering temperature of 280℃,which was 80.7%higher than that of the Mg/SAC/Al joint,and the joint was broken at the Mg(Ni)/SAC interface.Pre-plating Ni is a feasible way to inhibit formation of IMCs when joining dissimilar metals.

Ti3C2Tx MXene-functionalized Hydroxyapatite/Halloysite nanotube filled poly-(lactic acid)coatings on magnesium:In vitro and antibacterial applications

Magnesium(Mg)stands out in temporary biomaterial applications due to its biocompatibility,biodegradability,and low Young’s modulus.However,controlling its corrosion through next-generation polymer-based functional coatings is crucial due to the rapid degradation behavior of Mg.In this study,the function of 2D lamellar Ti_(3)C_(2)T_(x)(MXene)in Hydroxyapatite(HA)and Halloysite nanotube(HNT)hybrid coatings in biodegradable poly-(lactic acid)(PLA)was investigated.The morphological and structural characterizations of the coatings on Mg were revealed through HRTEM,XPS,SEM-EDX,XRD,FTIR,and contact angle analyses/tests.Electrochemical in vitro corrosion tests(OCP,PDS,and EIS-Nyquist)were conducted for evaluate corrosion resistance under simulated body fluid(SBF)conditions.The bioactivity of the coatings in SBF have been revealed in accordance with the ISO 23,317 standard.Finally,antibacterial disk diffusion tests were conducted to investigate the functional effect of MXene in coatings.It has been determined that the presence of MXene in the coating increased not only surface wettability(131°,85°,77°,and 74°for uncoated,pH,PHH,and PHH/MXene coatings,respectively)but also increased corrosion resistance(1857.850,42.357,1.593,and 0.085×10^(-6),A/cm^(2) for uncoated,pH,PHH,and PHH/MXene coatings,respectively).It has been proven that the in vitro bioactivity of PLA-HA coatings is further enhanced by adding HNT and MXene,along with SEM morphologies after SBF.Finally,2D lamellar MXene-filled coating exhibits antibacterial behavior against both E.coli and S.aureus bacteria.

Fabrication of Sn Coatings on Alumina Balls by Mechanical Coating Technique and Relevant Process Analysis

Sn coatings were fabricated by mechanical coating technique for the first time. The coatings were characterized by XRD and SEM, among others. The SEM showed that the coatings had an irregular and uneven morphology. The influence of the rotation speed of planetary ball mill on the evolution and formation of the coatings was also investigated. The results indicated that continuous Sn coatings can be formed under a moderate rotation speed. In other words, the coatings cannot be formed when rotation speed was too high or too low. The evolution of the coatings was examined and discussed. The results showed that it followed the universal evolution law of metal coatings which included four stages. However, the exfoliation of the coatings was not seen even the milling time reached 30 h.

Laser cladded AlCuFe+Sn quasicrystalline composite coatings

Al-Cu-Fe+Sn quasicrystalline(QC) composite coatings with different volume fractions of Sn, i.e.(12%,) (20%) (and 30%,) were prepared by laser cladding technique. The effects of soft phase Sn and processing parameters on the microstructure, microhardness and frictional behavior of the coatings were investigated. The results show that after laser cladding, i-phase existing in the powder is decomposed and element Sn reacts with Cu, forming β-CuSn. The volume fraction of Sn addition has less obvious effect on the microstructure, microhardness and friction performance than that of plasma sprayed coatings. The best performance in terms of microhardness and friction are (obtained) for the coating containing 20% Sn additions prepared with the laser power of 950 W and scanning velocity of 3 mm/s.

Effects of surface roughness of substrate on properties of Ti/TiN/Zr/ZrN multilayer coatings

Ti/TiN/Zr/ZrN multilayer coatings were deposited on Cr_17Ni_2 steel substrates with different surface roughnesses by vacuum cathodic arc deposition method. Microstructure, micro-hardness, adhesion strength and cross-sectional morphology of the obtained multilayer coatings were investigated. The results show that the Vickers hardness of Ti/TiN/Zr/ZrN multilayer coating, with a film thickness of 11.37 μm, is 29.36 GPa. The erosion and salt spray resistance performance of Cr_17Ni_2 steel substrates can be evidently improved by Ti/TiN/Zr/ZrN multilayer coating. The surface roughness of Cr_17Ni_2 steel substrates plays an important role in determining the mechanical and erosion performances of Ti/TiN/Zr/ZrN multilayer coatings. Overall, a low value of the surface roughness of substrates corresponds to an improved performance of erosion and salt spray resistance of multilayer coatings. The optimized performance of Ti/TiN/Zr/ZrN multilayer coatings can be achieved provided that the surface roughness of Cr_17Ni_2 steel substrates is lower than 0.4μm.

High temperature oxidation behavior of Ti(Al,Si)_3 diffusion coating on γ-TiAl by cold spray

A Ti(Al,Si)3 diffusion coating was prepared on γ-TiAl alloy by cold sprayed Al?20Si alloy coating, followed by a heat-treatment. The isothermal and cyclic oxidation tests were conducted at 900 °C for 1000 h and 120 cycles to check the oxidation resistance of the coating. The microstructure and phase transformation of the coating before and after the oxidation were studied by SEM, XRD and EPMA. The results indicate that the diffusion coating shows good oxidation resistance. The mass gain of the diffusion coating is only a quarter of that of bare alloy. After oxidation, the diffusion coating is degraded into three layers: an inner TiAl2 layer, a two-phase intermediate layer composed of a Ti(Al,Si)3 matrix and Si-rich precipitates, and a porous layer because of the inter-diffusion between the coating and substrate.

Influence of Sn Low Doping on the Morphological, Structural and Optical Properties of ZnO Films Deposited by Sol Gel Dip-Coating

In this work, Undoped Zinc Oxide (ZnO) and Sndoped Zinc Oxide (ZnO:Sn) films have been deposited by sol-gel dip coating method, where the Sn/Zn atomic ratio was 3% and 5% in the solution. The effects of Sn incorporation on morphological, structural and optical properties of ZnO films were investigated. The Scanning Electron Microscopy (SEM) showed that the morphological surface of the films was affected by Sn low doping. The X-Ray Diffraction (XRD) patterns showed that all films have polycrystalline structures, and the doping incorporation has not lead to substantial changes in the structural characteristics of ZnO films. The crystallite size was calculated using the well-known Scherrer’s formula and found to be in the range of 23 - 40 nm. The measurements from UV-Visible Spectrophotometer (U-Vis) indicated that the highest average optical transmittance in the visible region was related to Undoped ZnO film, then the optical band gap and Urbach energy values of thin films were calculated. The X-Ray Photoelectron Spectroscopy (XPS) has demonstrated that Sn is incorporated in ZnO lattice.

Si调控Cu-20Sn-15Ti钎料显微组织与性能的演变行为

为通过成分调控改善Cu-Sn-Ti钎料的显微组织及性能,采用扫描电子显微镜、X射线衍射仪及EDS能谱分析等设备,研究了Si对Cu-20Sn-15Ti钎料显微组织与性能的影响规律。结果表明:Cu-20Sn-15Ti钎料的显微组织为大尺寸多边形状CuSn_(3)Ti_(5)相、共晶组织和α-Cu相。添加少量的Si(质量分数≤2.0%)可细化钎料中多边形状CuSn_(3)Ti_(5)相,并生成小尺寸Si_(3)Ti_(5)相,较多的Si(质量分数≥3.0%)会造成多边形状CuSn_(3)Ti_(5)相分化离散、共晶组织粗化减少,Si_(3)Ti_(5)相含量增加且粗化,当Si含量增至5.0%时,钎料不再生成多边形状CuSn_(3)Ti_(5)相和共晶组织,Ti主要用于生成Ti_(5)Si_(3)相,显微组织主要为Ti_(5)Si_(3)相、α-Cu相、Cu41Sn11相和少量条状CuSn_(3)Ti_(5)相;与Cu、Sn相比,Si与Ti具有更强的化学亲和力,Si优先与Ti反应生成Ti_(5)Si_(3)相;Ti_(5)Si_(3)相的三维组织形貌为棱柱状,且呈团聚附生特征,粗条状Ti_(5)Si_(3)相具有中心或侧面孔洞缺陷,孔洞的形成主要与其生长机制有关;随着Si含量的增加,钎料的剪切强度呈“升高-降低-升高”的趋势,断口形貌由准解理断裂和解理断裂的混合形态向解理断裂转变;CuSn_(3)Ti_(5)相易破碎开裂成为起裂源,不同粗大状态CuSn_(3)Ti_(5)相的存在均在一定程度上恶化钎料剪切强度。

轧制态TiZrNbSn合金的再结晶行为

首先对冷轧态Ti-49Zr-21Nb-1.0Sn(TZNS1.0)合金分别在600、650、700、750、800和850℃进行再结晶退火处理10、20、30、60、90和120 min,随后采用光学显微镜(OM)和电子背散射衍射(EBSD)技术分析了热处理后合金的组织演变,计算了合金的再结晶激活能,建立了其再结晶动力学模型。结果表明:随着退火温度的升高,TZNS1.0合金的再结晶形核孕育时间缩短,β晶粒经历了回复、再结晶形核和长大阶段。随着退火时间的增加,合金的晶粒尺寸增大,但长大速度逐渐减小。TZNS1.0合金在750℃再结晶退火后,仅少数区域发生再结晶,大部分区域仍为变形组织,并存在许多小角度晶界、高密度位错和轧制织构。在800℃退火后,再结晶区域呈现大角度晶界,轧制织构和高密度位错被消除。退火温度进一步升高到850℃时,再结晶过程全部完成,合金晶粒明显长大。TZNS1.0合金的再结晶激活能为67.45 kJ/mol,850℃退火处理时,合金的再结晶动力学方程为x=1-e^(-0.05t 0.9)。

退火处理对富Zr型Ti-Zr-Nb-Sn合金显微组织及性能的影响

为了研究退火工艺对冷轧后Ti-49Zr-21Nb-1Sn合金显微组织及性能的影响,对其在850℃分别进行了10、20和40 min的退火处理。借助光学显微镜、X射线衍射仪(XRD)、扫描电镜(SEM)、纳米压痕仪、电化学工作站及X射线光电子能谱(XPS)等研究了不同时间退火后合金的显微组织、力学性能及腐蚀性能。结果表明:随着退火时间的增加,合金的晶粒明显长大,相组成没有发生变化,为单一的β相,合金的弹性恢复轻微升高,塑性指数轻微降低。退火处理后合金的弹性模量、H/E_(r)和H~(3)/E_(r)~(2)值分别在88.4~94 GPa、0.0463~0.0479和0.0088~0.0103 GPa之间变化。极化曲线和阻抗图谱的分析结果表明,随着退火时间的增加,合金的自腐蚀电流密度逐渐增大,容抗弧半径减小,退火10 min时,合金的自腐蚀电流密度最小,容抗弧半径最大,表现出良好的耐蚀性。

Coating titanium on carbon steel by in-situ electrochemical reduction of solid TiO_2 layer

Ti coating on A3 steel was successfully prepared by direct electrochemical reduction of high-velocity oxy-fuel （HVOF） thermally sprayed and room-temperature dip-coating titanium dioxide coating on A3 steel in molten CaCl2 at 850 ℃. The interfacial microstructure and mutual diffusion between coating and steel substrate were investigated using scanning electron microscopy （SEM） and energy dispersive X-ray （EDX） spectroscopy. The results show that the precursory TiO2 coating prepared by HVOF has closer contact and better adhesion with the A3 steel substrate. After electrolysis, all of the electro-generated Ti coatings show intact contact with the substrates, regardless of the original contact situation between TiO2 layer and the steel substrate in the precursors. The inter-diffusion between the iron substrate and the reduced titanium takes place at the interface. The results demonstrate the possibility of the surface electrochemical metallurgy （SECM） is a promising surface engineering and additive manufacturing method.

TLM钛合金表层TiN/Sn复合涂层的制备及磨损行为研究

为了提高Ti-25Nb-3Zr-2Sn-3Mo(TLM)钛合金的耐磨性能,采用表面机械复合强化(SMCS)工艺在合金表层制备了复合涂层并研究了复合涂层的显微组织、微观力学性能和摩擦学性能。结果表明:采用表面机械复合强化技术可在合金表层成功制备TiN/Sn复合涂层,随着Sn含量的增加,复合涂层的厚度和粗糙度不断增大,10%、20%、30%、40%Sn涂层的厚度分别为9.08、14.05、18.33、23.55μm;10%、20%、30%、40%Sn涂层的表面硬度分别为590、529、465、400 HV,相比基体硬度(~230 HV)有所提高。复合涂层的磨损量随Sn含量的增加先减小后增大,20%Sn样品具有最低的磨损量;在干磨损试验中,原样的磨损机制以黏着磨损为主,同时伴随磨粒磨损,复合强化样的磨损机制为磨粒磨损、黏着磨损,同时伴随氧化磨损。

Sn对Cu-Sn-Ti钎料显微组织与性能的影响

为揭示Sn调控Cu-Sn-Ti钎料显微组织与力学性能的规律,采用真空非自耗熔炼法制备Cu-Sn-Ti钎料,利用扫描电镜、X射线衍射仪、能谱仪、万能材料试验机等,研究了Sn对Cu-Sn-Ti钎料的显微组织、显微硬度、剪切强度及断口形貌的影响.结果表明,钎料显微组织随Sn含量增加而演变的规律为:枝晶状初生α-Cu基体相+共晶组织+晶间组织→初生α-Cu基体相+共晶组织→共晶组织→初生CuSn_(3)Ti_(5)相+粗化共晶组织+α-Cu基体相(富Sn)+Cu_(41)Sn_(11)相+SnTi_(3)相,其中晶间组织为α-Cu相和CuSn_(3)Ti_(5)相的混合组织+少量的(SnTi_(3)+CuTi相+Cu_(3)Ti相).随着Sn含量的增加,钎料显微硬度呈先增大后减小的趋势,钎料剪切强度呈逐渐减小的趋势,断口形貌由准解理断裂向解理断裂+准解理断裂的混合形态转变.增加Sn含量促使钎料形成粗化的CuSn_(3)Ti_(5)相和共晶组织是导致钎料剪切强度下降的主要原因.

TiC-Fe coatings prepared by flame spray synthesis process

A new process, flame spray synthesis (FSS), has been developed for producing ceramic containing composite coatings. By combining self propagation high temperature synthesis (SHS) and flame spraying, the cermet based material was synthesized and deposited simultaneously. TiC Fe coatings were deposited from commercial ferrotitanium, iron and graphite powders by the flame spraying synthesis process. Microstructure analyses revealed that TiC was synthesized during spraying, and that submicron and round TiC particles were dispersed within an iron matrix. Flame spray synthesized coatings were composed of alternate soft and hard layers, whose hardness were 3.0～6.0 GPa and 11～13 GPa, respectively.

Salt spray corrosion test of micro-plasma oxidation ceramic coatings on Ti alloy

Ceramic coatings were prepared on Ti-6Al-4V alloy in NaAlO2 solution by micro-plasma oxidation （MPO）. The salt spray tests of the coated samples and the substrates were carded out in a salt spray test machine. The phase composition and surface morphology of the coatings were investigated by XRD and SEAM. Severe corrosion occurred on the substrate surface, while there were no obvious corrosion phenomena on the coated samples. The coatings were composed of Al2TiO5 and a little α-Al2O3 and mille TiO2, and the salt spray test did not change the composition of the coatings. The weight loss rate of the coatings decreased with increasing MPO time because of the increase in density and thickness of the coatings. The surface morphology of the coatings was influenced by salt spray corrosion test. Among the coated samples, the coating prepared for 2 h has the best corrosion resistance under salt spray test.

Properties of hydrophobic carbon-PTFE composite coating with high corrosion resistance by facile preparation on pure Ti

Composite coatings consisting of carbon and polytetrafluoroethylene(PTFE) were prepared on Ti alloy substrate by a simple two-step process of hydrothermal and impregnation. The morphology, composition, hydrophobic and corrosion properties of the composite coatings were characterized by scanning electron microscopy(SEM), Fourier transform infrared spectroscopy(FTIR), water contact angle method, X-ray photoelectron spectroscopy(XPS) and electrochemical technique, respectively. The effect of PTFE content on the corrosion properties of the composite coatings was studied. It is found that the composite coating film exhibits a full coverage with uniformly distributed PTFE when 0.1 mol/L of glucose is used as carbon source and 20 wt.% PTFE suspension as impregnating solution. The coating with 20 wt.% PTFE has a good bonding strength with Ti plate and exhibits excellent hydrophobic property with a water contact angle of 142.3° as well as superior corrosion resistance with corrosion current density as low as 0.0045 μA/cm^2. With regard to its excellent hydrophobicity and corrosion resistance, the carbon-PTFE composite coating may find potential application in automobiles and metal corrosion industries.

稀土Ce对Cu-Sn-Ti-Cr合金时效性能的影响

研究采用真空熔炼方法制备了Cu-Sn-Ti-Cr和Cu-Sn-Ti-Cr-Ce两种合金,经过时效处理,对其硬度、导电率和强度进行了测试。结果表明,经过50%的冷轧和450℃时效处理60 min后,Cu-Sn-Ti-Cr-Ce合金表现出最佳的力学性能,硬度达到了290HV,导电率为20.1%IACS。通过EBSD分析,发现Ce元素的引入可以抑制晶粒的生长,细化晶粒的尺寸。相较于Cu-Sn-Ti-Cr合金,稀土元素Ce的加入使析出相尺寸变小且数量增加,改善了合金的性能。

Pulsed DC plasma enhanced chemical vapor deposited TiN/Ti(C,N) multilayer coatings

TiN single coatings and TiN/Ti(C,N) multilayer coatings deposited on Cr12MoV substrate have been completed by pulsed DC plasma enhanced chemical vapor deposition(PCVD) process. The SEM, XRD and microvicker’s hardness as well as the indentation test were used to study the microstructure and mechanical properties of TiN/Ti(C,N) multilayer coatings. The results show that TiN/Ti(C,N) coatings are fine and have free column structure, and carbon atoms take the place of some nitrogen atoms in Ti(C,N) coatings when lower flow ratio of CH 4 is used. The microvicker’s hardness and interfacial adhesion between TiN/Ti(C,N) coatings and Cr12MoV substrate increases more obviously than that of TiN single hard coatings due to the more dense and free column structure when process is optimized.

Microstructures and properties of PVD TiAlN coating deposited on cermets with different Ti(C,N)grain size

In the present work,TiAlN coatings were deposited on Ti(C,N)-based cermet substrates by physical vapor deposition method.Emphasis was focused on the influence of grain size of cermet substrates on the microstructure,growth behavior,mechanical properties,adhesion strength and wear behavior of the coatings.The results show that finer Ti(C,N)grain size leads to higher nucleation density and lower growth rate of coatings,indicating the crystallite size of the TiAlN coatings decreases with decreasing Ti(C,N)grain size.Nanoindentation tests show that the coatings deposited on cermets of the finest grain size exhibit the highest hardness(H),elastic modulus(E),H/E and H3/E2 of 34.5 GPa,433.2 GPa,0.080 and 0.22,respectively.The adhesion strength between coating and substrate is also enhanced with decreasing Ti(C,N)grain size by scratch test,which corresponds to the grain size and H/E and H3/E2 of the coating.Besides,the lower surface roughness and better mechanical properties of the coating deposited on finer grained cermet contribute to the better wear resistance of the coating.

Structural characteristics and high-temperature tribological behaviors of laser cladded NiCoCrAlY−B_(4)C composite coatings on Ti6Al4V alloy

In order to improve the hardness and tribological performance of Ti6Al4V alloy,NiCoCrAlY-B_(4)C composite coatings with B_(4)C of 5%,10%and 15%(mass fraction)were fabricated on its surface by laser cladding(LC).The morphologies,chemical compositions and phases of obtained coatings were analyzed using scanning electronic microscope(SEM),energy dispersive spectrometer(EDS),and X-ray diffraction(XRD),respectively.The effects of B_(4)C mass fraction on the coefficient of friction(COF)and wear rate of NiCoCrAlY-B_(4)C coatings were investigated using a ball-on-disc wear tester.The results show that the NiCoCrAlY-B_(4)C coatings with different B_(4)C mass fractions are mainly composed of NiTi,NiTi_(2),α-Ti,CoO,AlB_(2),TiC,TiB and TiB_(2)phases.The COFs and wear rates of NiCoCrAlY-B_(4)C coatings decrease with the increase of B_(4)C content,which are contributed to the improvement of coating hardness by the B_(4)C addition.The wear mechanisms of NiCoCrAlY-B_(4)C coatings are changed from adhesive wear and oxidation wear to fatigue wear with the increase of B_(4)C content.