Molecular dynamics study of coupled layer thickness and strain rate effect on tensile behaviors of Ti/Ni multilayered nanowires

Novel properties and applications of multilayered nanowires(MNWs)urge researchers to understand their mechanical behaviors comprehensively.Using the molecular dynamic simulation,tensile behaviors of Ti/Ni MNWs are investigated under a series of layer thickness values(1.31,2.34,and 7.17 nm)and strain rates(1.0×10^(8)s^(-1)≤ε≤5.0×10^(10)s^(-1)).The results demonstrate that deformation mechanisms of isopachous Ti/Ni MNWs are determined by the layer thickness and strain rate.Four distinct strain rate regions in the tensile process can be discovered,which are small,intermediate,critical,and large strain rate regions.As the strain rate increases,the initial plastic behaviors transform from interface shear(the shortest sample)and grain reorientation(the longest sample)in small strain rate region to amorphization of crystalline structures(all samples)in large strain rate region.Microstructure evolutions reveal that the disparate tensile behaviors are ascribed to the atomic fractions of different structures in small strain rate region,and only related to collapse of crystalline atoms in high strain rate region.A layer thickness-strain rate-dependent mechanism diagram is given to illustrate the couple effect on the plastic deformation mechanisms of the isopachous nanowires.The results also indicate that the modulation ratio significantly affects the tensile properties of unequal Ti/Ni MNWs,but barely affect the plastic deformation mechanisms of the materials.The observations from this work will promote theoretical researches and practical applications of Ti/Ni MNWs.

Study on theoretical model for electrical explosion resistivity of Al/Ni reactive multilayer foil

Al/Ni reactive multilayer foil(RMF)possesses excellent comprehensive properties as a promising substitute for traditional Cu bridge.A theoretical resistivity model of Al/Ni RMF was developed to guide the optimization of EFIs.Al/Ni RMF with different bilayer thicknesses and bridge dimensions were prepared by MEMS technology and electrical explosion tests were carried out.According to physical and chemical reactions in bridge,the electrical explosion process was divided into 5 stages:heating of condensed bridge,vaporization and diffusion of Al layers,intermetallic combination reaction,intrinsic explosion,ionization of metal gases,which are obviously shown in measured voltage curve.Effects of interface and grain boundary scattering on the resistivity of film metal were considered.Focusing on variations of substance and state,the resistivity was developed as a function of temperature at each stage.Electrical explosion curves were calculated by this model at different bilayer thicknesses,bridge dimensions and capacitor voltages,which showed an excellent agreement with experimental ones.

退火工艺对Ti-Ni-V形状记忆合金相变和形变行为的影响

利用差示扫描量热仪和拉伸试验研究了400℃×10~120 min和500℃×10~120 min退火态Ti-50.8Ni-0.5V合金的相变行为、拉伸性能和形状记忆行为。结果表明:随退火温度和时间变化,合金的相变类型、R相变温度T_(R)和热滞ΔT_(R)、马氏体相变温度T_(M)和热滞ΔT_(M)、抗拉强度R_(m)、伸长率A、应力诱发马氏体相变临界应力σ_(M)、加载-卸载残余应变ε_(R)和能耗W_(D)的变化规律如下:400和500℃退火态Ti-50.8Ni-0.5V合金皆发生B2→R→B19’/B19’→R→B2(B2-母相,CsCl型结构;R-R相,菱方结构;B19’-马氏体相,单斜结构)型相变;T_(R)^(400℃)>T_(R)^(500℃),T_(M)^(500℃)>T_(M)^(400℃),ΔT_(M)^(400℃)>ΔT_(M)^(500℃)≥ΔT_(R)^(400℃)≈ΔT_(R)^(500℃)≈4℃;R_(m)^(400℃)>R_(m)^(500℃),A^(500℃)>A^(400℃);400℃退火态合金的超弹性(SE)稳定性高于500℃退火态合金。随退火时间延长,T_(R)^(400℃)、T_(R)^(500℃)、T_(M)^(400℃)和T_(M)^(500℃)升高,ΔT_(M)^(400℃)和ΔT_(M)^(500℃)减小,ΔT_(R)^(400℃)和ΔT_(R)^(500℃)在3.5~4.6℃之间变化;400℃退火态合金保持SE,500℃退火态合金由SE向SE+SME(形状记忆效应)转变;σ_(M)^(400℃)和σ_(M)^(500℃)降低;W_(D)^(400℃)和W_(D)^(500℃)增加;ε_(R)^(500℃)先降后升;ε_(R)^(400℃)在0.64%~1.36%之间变化。要使Ti-50.8Ni-0.5V合金获得较高的T_(R),可对其进行400℃退火;要使该合金获得较高的T_(M),可对其进行500℃退火;要使该合金在室温下获得超弹性,可对其进行400℃×10~120 min或500℃×10~60 min退火。

退火和变形温度对Ti-Ni-Cr形状记忆合金弹簧低温超弹性的影响

利用拉伸试验研究了350~800℃退火态Ti-50.8Ni-0.3Cr合金弹簧在-20~20℃温度范围变形时的低温超弹性。结果表明,在350~800℃温度范围退火时,随退火温度升高,该合金弹簧对外输出应力先降低再升高,而后趋于稳定。在-20~20℃温度范围变形时,随变形温度升高,该合金弹簧对外输出应力增大。要使该合金弹簧在-20℃下获得残余应变较小的超弹性,可对其进行350~400℃或550~800℃退火处理;要使该合金弹簧在-10~20℃下获得残余应变较小的超弹性,可对其进行350~500℃退火处理;要使该合金弹簧在-20~20℃下获得较大的能耗,可对其进行450~800℃退火处理。随退火温度升高,该合金弹簧的应变恢复率降低;随应力-应变循环次数增加,该合金弹簧的应变恢复率先降低后趋于稳定。预循环训练能明显提高该合金弹簧应变恢复率的稳定性。

基于ICP的Ar等离子体干法刻蚀Ti/Ni/Ag薄膜

在电感耦合等离子体(ICP)刻蚀工艺中,选择合适的刻蚀条件对Ti/Ni/Ag薄膜的刻蚀至关重要。使用氩气(Ar)作为刻蚀气体,研究了射频偏压功率、气体体积流量、腔体压强、刻蚀时间等多个参数对功率芯片背面Ti/Ni/Ag薄膜刻蚀深度的影响,并优化刻蚀工艺参数。实验结果表明,调节射频偏压功率和Ar体积流量可以显著影响刻蚀速率,进而对薄膜的微结构进行有效调控。通过优化工艺参数,在射频偏压功率300 W、Ar体积流量40 cm^(3)/min、腔体压强1.2 Pa、刻蚀时间50 min下,芯片Ti/Ni/Ag薄膜的刻蚀深度达到283.25μm,有效提升了刻蚀效率和刻蚀精度。

熔速对高填充比06Cr18Ni11Ti电渣重熔铸锭凝固过程的影响

以06Cr18Ni11Ti钢高填充比电渣重熔铸锭为研究对象,通过建立瞬态电渣重熔过程的多相多物理场耦合模型,探究了熔速对电渣重熔过程中电磁、传热、流动及凝固行为的影响。结果表明,不同熔速下的电流路径基本一致,且存在明显的集肤效应,结晶器内部温度呈抛物线形分布,且温度梯度较大。随着熔速从5 kg/min增至7 kg/min,电流密度、洛伦兹力和焦耳热分别增加了16.2%、37.7%和63.3%;渣池最高温度从1902 K上升至2058 K;渣池内存在两对方向相反的涡旋,结晶器内的流动随熔速增大变得更加剧烈;在本文研究条件下,提高熔速会导致熔池深度增大、铸锭局部凝固时间延长;当熔速为5 kg/min时,局部凝固时间最短,熔池深度在结晶器直径的1/2~1/3,有助于保证铸锭良好的致密性和结晶质量。

Ti/SnO_(2)-Sb-Ni电极电化学氧化去除水中BIT

1,2-苯并异噻唑啉-3-酮(BIT)是一种新型广谱工业杀菌剂,因其强杀菌能力而难以直接通过传统生化法处理,电化学氧化是一种有效的预处理方法。通过实验对比不同典型阳极对BIT去除率的影响;以锑镍共掺杂钛基二氧化锡电极(Ti/SnO_(2)-Sb-Ni)为阳极电化学氧化BIT,考察BIT电化学氧化过程中不同初始BIT浓度、初始pH、电流密度和硫酸钠浓度等操作参数对BIT去除率的影响,结合紫外-可见吸收光谱和荧光光谱分析,探究BIT降解过程中的结构变化。结果表明:相较于商业电极,Ti/SnO_(2)-Sb-Ni电极可高效电化学氧化BIT及其产物,消除其生物毒性;Ti/SnO_(2)-Sb-Ni电极电化学氧化BIT过程中,最佳电流密度为15 mA/cm^(2),pH和初始硫酸钠浓度对BIT降解影响较小,最佳BIT初始浓度15 mg/L,BIT降解过程中杂环先被破坏,苯环再被破坏。

Thickness effect on microstructural and mechanical properties of pulse-laser treated Ti/Ni multilayer thin films

Previous work showed that pulse-laser irradiation can strengthen metal multilayer thin films through intermetallic formation and the degree of strengthening is a function of laser pulse energy.In this work,the effect of individual layer thickness(λ)and total multilayer thickness(h)on the resulting microstructure and mechanical strength of laser-treated Ti/Ni multilayers was further investigated.Experiments were carried out on fourλ/hcombinations using individual layer thickness of 20 nm and 50 nm,and total multilayer thickness of 500 nm and1μm,respectively.Obvious intermetallic strengthening was observed in the 500 nm thick multilayers,especially with the 20 nm layer thickness,but not in the 1μm thick multilayers.Further,the multilayer surface morphology after laser treatment was observed to be dominated by competition between laser-induced optical interference and thermal melting,with the former leading to ripple or cross-hatched patterns and the latter leading to melted surfaces with pores and cracks.

多孔Ti/SnO_(2)-Sb-Ni电极的制备及电催化产臭氧性能研究

采用溶胶凝胶法制备了多孔Ti/SnO_(2)-Sb-Ni电极,并研究了所制备电极的电催化产臭氧性能。采用SEM与XRD等方法对电极涂层的表面形貌及结构进行了表征;考察了不同电极基体条件对电催化产臭氧性能的影响。实验结果表明:多孔Ti/SnO_(2)-Sb-Ni电极表面呈现为密集粗糙颗粒状结构;当电极涂层中Sn∶Sb∶Ni摩尔比为500∶8∶5、泡沫钛基体孔径为20μm时,制备出的电极有最佳的电催化产臭氧性能。多孔Ti/SnO_(2)-Sb-Ni电极可为新型电化学生成臭氧技术的研究和应用提供支撑。

Effect of Ni content on the weldability of middle-chromium hyperpure ferritic stainless steels 00Cr21Ti

Excellent weldability substantially contributes to the intrinsic quality of steels,while appropriate chemical composition plays a primary role in the essential weldability of steels.The poor weldability of ferritic stainless steels could be improved through modification with minor alloy elements while minimally increasing the cost.Therefore,studying the effect of minor alloy elements on the weldability of steels is of considerable importance.In this study,several steels of middle-chromium hyperpure ferritic stainless 00Cr21Ti with different Ni content(0.3%,0.5%,0.8%,and 1.0%)were developed,and their weldabilities of butt joint samples welded using the metal inert gas welding process,including the influence of welded joints on the microstructure,tensile performance,corrosion resistance,and fatigue property,were investigated.Results show that the steels with w(Ni)≥0.8%exhibit excellent mechanical properties compared with those with low-Ni content steels,further,their impact toughness at normal atmospheric temperature meets the industrial application standard and the fatigue property is similar to that of 304 austenitic stainless steel.Moreover,results show that the corrosion resistance of all the samples is almost at the same level.The results acquired in this study are supposed to be useful for the optimization of the chemical composition of stainless steels aiming to improve weldability.

06Cr18Ni11Ti管坯探伤与晶间腐蚀不合原因分析及改进措施

针对06Cr18Ni11Ti管坯探伤不合以及晶间腐蚀不合问题,采用光学显微镜和扫描电子显微镜对缺陷进行了检测和分析。结果表明:造成探伤不合与腐蚀开裂的原因是相同的,都是因为管坯中存在大量0.4~0.6 mm大尺寸链状TiN夹杂物团簇。通过控制Ti合金化过程中Ti含量、Al含量、炉渣成分,降低浇注温度,提高快锻机单道次压下量,有利于提高探伤、晶间腐蚀的合格率。

时效处理对Ni-Ti-La合金微结构、相变及力学性能的影响

时效处理是调节合金微结构,影响合金性能的有效方法。用实验的方法分析了Ni-Ti-La合金的微结构,研究了合金的相变行为,测定了合金的维氏硬度。实验结果表明,用La元素替代Ni元素形成的Ti_(50)Ni_(49.5)La_(0.5)合金,经时效处理后合金由NiTi基体、NiLa沉淀相和Ti_(2)Ni沉淀相组成,并且沉淀相的数量随着时效温度升高而减少,合金在加热和冷却的过程中均为一步相变B2↔B19',合金相变开始温度随时效温度的升高而增大,合金的硬度随时效温度的升高而增大。用La元素替代Ti元素形成的Ti_(49.5)Ni_(50)La_(0.5)合金,经时效处理后合金由NiTi基体、NiLa沉淀相组成,并且沉淀相的数量随时效温度的升高而增加,合金在加热和冷却的过程中呈现一步相变B2↔B19',相变开始温度随时效温度的升高而增大,合金的维氏硬度随时效温度的升高而减小。时效处理对Ti_(50)Ni_(49.5)La_(0.5)合金和Ti_(49.5)Ni_(50)La_(0.5)合金的微结构产生了影响,进而影响了合金的相变行为和力学性能。

First-principles calculations for the elastic properties of Ni-base model superalloys: Ni/Ni_3Al multilayers

A model system consisting of Ni[001]（100）/Ni3Al[001]（100） multi-layers are studied using the density functional theory in order to explore the elastic properties of single crystal Ni-based superalloys. Simulation results are consistent with the experimental observation that rafted Ni-base superalloys virtually possess a cubic symmetry. The convergence of the elastic properties with respect to the thickness of the multilayers are tested by a series of multilayers from 2γ′＋2γto 10γ′＋10γ atomic layers. The elastic properties are found to vary little with the increase of the multilayer＇s thickness. A Ni/Ni3Al multilayer with 10γ′＋10γ atomic layers （3.54 nm） can be used to simulate the mechanical properties of Ni-base model superalloys. Our calculated elastic constants, bulk modulus, orientation-dependent shear modulus and Young＇s modulus, as well as the Zener anisotropy factor are all compatible with the measured results of Ni-base model superalloys R1 and the advanced commercial superalloys TMS-26, CMSX-4 at a low temperature. The mechanical properties as a function of the γ′ phase volume fraction are calculated by varying the proportion of the γ and γ′ phase in the multilayers. Besides, the mechanical properties of two-phase Ni/Ni3Al multilayer can be well predicted by the Voigt-Reuss-Hill rule of mixtures.

Surface Modification With Zinc and Zn-Ni Alloy Compositionally Modulated Multilayer Coatings

Zinc and Zn-Ni alloy compositionally modulated multilayer （CMM） coatings were electrodeposited on to a steel substrate by the successive deposition of zinc and Zn-Ni alloy sublayers from dual baths. The coated samples were evaluated in terms of the surface appearance, surface and cross-sectional morphologies, as well as corrosion resistance. The microstructural characteristics that were examined using the field emission gun scanning electron microscopy （FEGSEM） confirmed the layered structure, grain refinement of the zinc and Zn-Ni alloy CMM coatings, and revealed the existence of microcracks caused by the internal stress in the thick Zn-Ni alloy sublayers. The corrosion resistance that was evaluated by means of the salt spray test shows that the zinc and Zn-Ni alloy CMM coatings were more corrosion-resistant than the monolithic coatings of zinc or Zn-Ni alloy of the same thickness. The possible reasons for the better protective performance of Zn-Ni/Zn CMM coatings were given on the basis of the analysis on the micrographic features of zinc and Zn-Ni alloy CMM eoatings after the corrosion test. A probable corrosion mechanism of zinc and Zn-Ni alloy CMM coatings was also proposed.

Fretting wear behavior of Ti/TiN multilayer film on uranium surface under various displacement amplitudes

Ti/TiN multilayer film was deposited on uranium surface by arc ion plating technique to improve fretting wear behavior. The morphology, structure and element distribution of the film were measured by scanning electric microscopy（SEM）, X-ray diffractometry（XRD） and Auger electron spectroscopy（AES）. Fretting wear tests of uranium and Ti/TiN multilayer film were carried out using pin-on-disc configuration. The fretting tests of uranium and Ti/TiN multilayer film were carried out under normal load of 20 N and various displacement amplitudes ranging from 5 to 100 μm. With the increase of the displacement amplitude, the fretting changed from partial slip regime（PSR） to slip regime（SR）. The coefficient of friction（COF） increased with the increase of displacement amplitude. The results indicated that the displacement amplitude had a strong effect on fretting wear behavior of the film. The damage of the film was very slight when the displacement amplitude was below 20 μm. The observations indicated that the delamination was the main wear mechanism of Ti/TiN multilayer film in PSR. The main wear mechanism of Ti/TiN multilayer film in SR was delamination and abrasive wear.

Giant Magnetoresistance Effect of [bcc-Fe(M)/Cu](M=Co,Ni) Multilayers

GMR effect of multilayers of bcc-Fe(M)(M=Co, Ni) alloy and Cu layers has been investigated. The maximum MR ratio is found at 1.1 nm Fe(Co) and 1.3～1.4 nm Cu layer thickness in [Fe(Co)/CuJ, and at 1.6 nm Fe(Ni) and 1.4 nm Cu layer thickness in [Fe(Ni)/Cu]. Under the optimum annealing condition, the MR ratio increases up to 50% and 38% for Fe(Co) and Fe(Ni) systems, respectively. The origin of the increase of GMR is discussed, taking the progress of preferred orientation of Fe(Co)[100] or Fe(Ni)[100] by anneahng into account.

Magnetic Studies of Spin Wave Excitations in Ni/Cu Multilayers

The magnetic properties of Ni/Cu multilayers, prepared by the electron beam evaporation method under ultra high vacuum conditions, have been systematically studied by magnetic measurements. The temperature dependence of the spontaneous magnetization M (T) is well described by a T3/2 law. A spin wave theory has been used to explain the magnetization versus temperature. Based on this theory, the approximate values for the exchange interactions have been obtained.

Corrosion behaviors of zinc and Zn-Ni alloy compositionally modulated multilayer coatings

Zinc and Zn-Ni alloy compositionally modulated multilayer （CMM） coatings were electrodeposited from dual baths. The coated samples were evaluated in terms of surface appearance, surface and cross-sectional morphologies, as well as corrosion resistance. The results obtained from the salt spray test show that the zinc and Zn-Ni alloy CMM coatings are more corrosion-resistant than the monolithic coatings of zinc or Zn-Ni alloy alone with a similar thickness. The corrosion potential measurement and anodic polarisation tests were undertaken to examine the probable corrosion mechanisms of zinc and Zn-Ni alloy CMM coatings. Analysis on the micrographic features of zinc and Zn-Ni alloy CMM coatings after the corrosion test explains the probable reasons why the Zn-Ni/Zn CMM coatings have a better protective performance. Surface morphologies and compositional analysis of the remaining coating material of Zn-Ni alloy deposit after the corrosion test confirms the dezincification mechanism of the Zn-Ni alloy deposit during the corrosion process.

退火和时效工艺对富镍Ti-Ni形状记忆合金显微组织和相变行为的影响

为了给富镍Ti-Ni形状记忆合金热处理工艺的优化提供依据,以Ti-50.8Ni合金丝为对象,用光学显微镜、透射电子显微镜和示差扫描量热仪研究了退火和时效工艺对富镍Ti-Ni合金显微组织、相变类型、相变温度和相变热滞的影响规律。Ti-50.8Ni合金丝经350~800℃+5~120 min退火处理后,随退火温度和时间增加,合金发生回复、再结晶和晶粒长大过程,再结晶温度在600℃左右,显微组织形态由纤维状向等轴状变化;冷却/加热相变类型由B2→R→B19′/B19′→R→B2型向B2→R→B19′/B19′→B2型向B2→B19′/B19′→B2型转变(B2-母相,CsCl型结构;R-R相,菱方结构;B19′-马氏体相,单斜结构);R相变温度θ_(R)先升后降,极大值35.2℃在400℃退火态合金中取得;马氏体(M)相变温度θ_(M)升高,M相变热滞Δθ_(M)降低,R相变热滞Δθ_(R)约为4℃。该合金经300~500℃+0.5~50 h时效处理后,随时效温度和时间增加,合金中Ti3Ni4析出物形貌由细小颗粒状→针状→粗片状变化;300℃和500℃时效态合金的相变类型分别为B2→R→B19′/B19′→R→B2和B2→R→B19′/B19′→B2,400℃时效态合金的相变类型由B2→R→B19′/B19′→R→B2型向B2→R→B19′/B19′→B2型转变;θ_(R300)、θ_(R400)、θ_(R500)、θ_(M300)和θ_(M500)升高;θ_(M400)先降后升,极小值-121.4℃在400℃+1 h时效态合金中取得;Δθ_(M300)和Δθ_(M400)先升后降,极大值70.5℃和129.4℃分别在300℃+5 h和400℃+1 h时效态合金中取得;Δθ_(M500)降低,Δθ_(R300)和Δθ_(R400)约为4℃。

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.