铸态Cu-1.16Ni-0.36Cr合金热变形行为及热加工图

利用Gleeble-1500型热模拟试验机,研究了Cu-1.16Ni-0.36Cr合金在变形量为50%、变形温度为750~950℃、变形速率为0.01~10 s^(-1)下的热压缩变形行为,建立该合金热变形的本构方程和热加工图。结果表明:Cu-1.16Ni-0.36Cr合金在700~900℃的变形温度下以动态回复为主,在950℃下发生完全的动态再结晶。通过真应力应变曲线得到了该合金热变形的本构方程和热加工图。根据应变对流变应力的影响对本构方程进行修正,通过修正后的回归方程对流变应力进行模拟,模拟结果与实验结果吻合。热加工图表明,该合金适宜的热变形工艺参数为900~950℃和0.1~1 s^(-1),其中950℃和1 s^(-1)变形条件下组织状态最佳,为晶粒细小均匀的等轴晶。

热处理对Cu-Ni-Cr-Si合金性能提升的机理研究

为了深入了解Cu-Ni-Cr-Si系列合金的综合性能,对比分析了Cu-Ni-Cr-Si合金热处理前后合金的显微硬度、拉伸性能以及显微组织等的变化规律。研究发现,热处理后的Cu-Ni-Cr-Si合金的拉伸性能明显提升,显微硬度也呈现出相同的变化趋势。Cu-Ni-Cr-Si合金是典型的沉淀时效强化合金,热处理过程中溶质原子扩散,从而形成析出相,细小、弥散的析出相分布在合金的晶界中会阻碍位错运动,从而提高了合金的力学性能。显微组织研究发现,热处理后晶粒的尺寸显著变大,与此同时热驱动力促使析出相生成,一般为Ni/Si相和Cr/Si相,析出相具有较高的硬度,合金的显微硬度在热处理之后也会有显著提升。电子背散射衍射(EBSD)分析发现,热处理之后小角度晶界转变为大角度晶界,局域取向差降低,推断位错密度降低。除此之外,溶质原子Cr、Ni、Si从基体中析出,对基体具有一定的净化作用,导电率由29.665%IACS提高到35.124%IACS。

纳米晶块体Co-45Ni-10Cr合金在H 2SO 4溶液中腐蚀电化学行为

利用粉末冶金工艺制备常规尺寸(CS)Co-45Ni-10Cr合金粉末,再利用机械合金化法制备纳米尺寸(NS)Co-45Ni-10Cr合金粉末,采用真空热压技术得到相应的块体Co-45Ni-10Cr合金。腐蚀介质选择不同浓度的H_(2)SO_(4)溶液,利用电化学工作站分别测试两种Co-45Ni-10Cr(CS和NS)块体合金的自腐蚀电位、动电位极化曲线和交流阻抗谱,对比研究了两者腐蚀行为以及晶粒细化对于它们腐蚀行为产生的影响。结果表明:两种Co-45Ni-10Cr(CS和NS)块体合金的自腐蚀电位均随着腐蚀介质H_(2)SO_(4)溶液浓度增大而发生负移,腐蚀倾向逐渐加剧,同时腐蚀电流密度均增大,电荷传递电阻相应减小,因此腐蚀速度加快。此外,两种Co-45Ni-10Cr(CS和NS)块体合金的交流阻抗谱均为单一容抗弧,说明腐蚀速率均由电化学过程控制。与Co-45Ni-10Cr(CS)合金相比,Co-45Ni-10Cr(NS)合金的腐蚀速率减慢,表明纳米化后Co-45Ni-10Cr块体合金的耐腐蚀性能有所提高。

热处理对选区激光熔化Co-Cr合金微观组织与力学性能的影响

热处理不仅可以消除激光增材制造材过程中的热应力,还可以调控材料组织结构和力学性能。本文研究了选区激光熔化Co-Cr合金微观组织在不同热处理条件下的变化及其相应的力学性能。研究发现,打印态下合金组织为γ奥氏体,基体中存在大量层错和亚晶界组织,以及少量四方σ-CoCr沉淀相;在1150℃下保温1 h,发生γ-ε转变,ε马氏体含量为10.4%(V/V),同时沉淀相由四方σ相转变为六方Co_(3)W(Mo)_(2)Si相;再经过800℃处理2 h后,马氏体含量进一步增加至15.5%(V/V),同时沉淀相数量增加且尺寸增大。热处理后的沉淀相对力学性能影响显著,材料的硬度从31 HRC提高至38 HRC,屈服强度从848 MPa提高至1119 MPa。本研究可以为研究激光选区熔化Co基合金组织与性能调控提供参考。

15Ni-15Cr ODS钢的微观结构与力学性能

氧化物弥散强化(Oxide dispersion strengthened,ODS)钢因其良好的高温力学性能和抗辐照性能被认为是钠冷快堆包壳材料的重要候选材料.本文通过机械合金化以及热等静压和锻造工艺制备了15Ni‒15Cr ODS奥氏体钢,并且采用相同工艺制备了不加氧化物的15Ni‒15Cr奥氏体钢作为参比材料.利用透射电镜对样品的微观结构进行分析,发现15Ni‒15Cr和15Ni‒15Cr ODS奥氏体钢晶粒尺寸分别为0.75和0.5μm.15Ni‒15Cr ODS奥氏体钢中分布的氧化物弥散粒子主要为δ-Y_(4)Zr_(3)O_(12)以及少量的Al_(2)O_(3).15Ni‒15Cr ODS奥氏体钢中氧化物弥散粒子的平均粒径为12.8 nm、数密度5.5×10^(22)m^(−3)、粒子间距26 nm.相比于15Ni‒15Cr奥氏体钢,15Ni‒15Cr ODS奥氏体钢具有更高的强度,但是高温塑性有所降低.15Ni‒15Cr ODS奥氏体钢的室温断裂机制为韧性断裂,高温断裂机制为韧–脆混合断裂.

高强高导接触导线用Cu-Ni-Cr合金的时效处理工艺

对热轧态Cu-0.1Ni-0.5Cr合金进行了960℃×1 h固溶+460℃不同时间的时效处理。采用OM、SEM、硬度测试和导电率测试等方法,研究了不同时效时间对Cu-0.1Ni-0.5Cr合金组织与性能的影响。结果表明:随着时效时间的增加,Cu-0.1Ni-0.5Cr合金的硬度先升高后降低,导电率先升高后基本不变。460℃×4 h时效处理的Cu-0.1Ni-0.5Cr合金的硬度和导电率达到峰值,分别为122.6 HV和79.5%IACS。460℃不同时间时效的Cu-0.1Ni-0.5Cr合金中析出大量第二相,随着时效时间的增加,第二相数量逐渐增多并发生合并、长大,Cu-0.1Ni-0.5Cr合金最佳时效工艺为460℃×4 h。

DEVELOPMENT OF MoS_2-CONTAINING Ni-Cr BASED ALLOYS AND THEIR HIGH-TEMPERATURE TRIBOLOGICAL PROPERTIES

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Ni-Cr-B-Si合金预连接金刚石磨粒及其阻焊的研究

利用Ni-Cr-B-Si合金预连接金刚石,然后阻焊焊接在基体上,旨在为有序排布的金刚石工具磨粒的精确固定或焊补修复工具损毁磨粒服务。利用扫描电子显微镜(SEM)、能谱仪(EDS)、X射线衍射仪(XRD)、拉曼光谱仪对处理后的金刚石磨粒进行表征,采用磨削试验评定其磨削性能。研究表明:在1050℃保温60 s的预连接工艺下,金刚石表面生成Cr7C3和Cr3C2两种碳化物;阻焊后金刚石磨粒仍然棱角分明,预连接层与基体结合良好;阻焊金刚石所受最大压应力为0.46 GPa,对比样钎焊金刚石所受最大压应力为0.13 GPa,阻焊金刚石受到的把持力更强;磨削试验显示,阻焊金刚石对加工材料的去除量高于钎焊金刚石,表现出更好的磨削性能。

Oxidation Behaviour of Sputtered Ni-3Cr-20Al Alloy

The oxidation behavior of sputtered Ni-3Cr-20Al coating at 900℃ in air was investigated. A dense Al2O3 layer was formed on the sputtered Ni-3Cr-20AI coating after 200 h oxidation. However, owing to the segregation of Ni3Al during oxidation process at high temperature, the spinel NiAI2O4 was also formed in the Al2O3 layer. It was found that the formation of NiAI204 had no detrimental effect on the oxidation resistance of the sputtered N?3O-20AI coating due to the excellent adhesion shown by the Al2O3 and NiAl2O4complex oxide scale.

含碳量对Ni-Cr-W-Mo合金显微组织及力学性能的影响

采用真空感应熔炼与电渣重熔相结合的工艺冶炼,随后锻造和热挤压制备了外径320 mm、内径280 mm,碳质量分数分别为0.04%、0.08%和0.12%的Ni-Cr-W-Mo合金管。对合金管进行了1 160~1 250℃保温20 min水冷的固溶处理。检测了热挤压态和固溶处理态合金管的显微组织和力学性能及固溶处理态合金管的高温持久性能。结果表明:热挤压态合金管晶粒细小且晶内有大量孪晶,碳化物弥散分布;随着含碳量的增加,相同温度固溶处理的合金管晶粒尺寸减小;随着固溶温度的提高,含碳量相同的合金管晶粒尺寸增大;合金管中碳化物主要为M6C和M23C6,弥散分布于晶内和晶界;随着含碳量的增加,合金管中碳化物数量增多,经1 220℃保温20 min水冷固溶处理的合金管的室温强度先降低后升高,断后伸长率降低,以及在927℃、80 MPa应力条件下的持久寿命和断后伸长率均先升高后降低。

Fe-Cr-Ni-Al合金铸造过程的数值模拟及组织性能

利用Procast软件模拟计算对Fe-Cr-Ni-Al合金的温度场和冷却速率进行分析,通过实验研究各冷却速率对铸态组织、枝晶间距以及显微硬度的影响.结果表明:采用阶梯状铸件能够较好地拟合Fe-Cr-Ni-Al合金铸件的温度场分布以及冷却速率的变化情况.随着冷却速率的增加,奥氏体相占比减小,铁素体相占比增大,过冷度增加使合金组织一次枝晶间距减小,组织中存在σ相,铁素体相区与奥氏体相区显微硬度值随冷却速率增大都呈增高趋势.

Electroplating process of amorphous Fe-Ni-Cr alloy

A novel process of electroplating amorphous Fe Cr Ni alloy in chloride aqueous solution with Fe(Ⅱ), Ni(Ⅱ) and Cr(Ⅲ) was reported. Couple plasma atomic emission spectrometry (ICP AES), X ray diffractometry(XRD), scanning electronic microscopy(SEM), microhardness test and rapid heating cooling method were adopted to detect the properties of the amorphous Fe Ni Cr deposit, such as composition, crystalline structure, micrograph, hardness, and adherence between deposit and substrate. The effects of the operating parameters on the electrodeposit of the amorphous Fe Ni Cr alloy were discussed in detail. The results show that a 8.7?μm thick mirror like amorphous Fe Ni Cr alloy deposit, with Vicker’s hardness of 530 and composition of 45%～55% Fe, 33%～37% Ni, 9%～23% Cr was obtained by electroplating for 20?min at room temperature(10～30?℃), cathode current 10～16?A/dm 2, pH=1.0～3.0. The XRD patterns show that there only appears a broad hump around 2 θ of 41?°～47?°for the amorphous Fe Ni Cr alloy deposit, while the SEM micrographs show that the deposit contains only a few fine cracks but no pinholes.

Electrochemical behavior of Co-Cr and Ni-Cr dental cast alloys

The cast structures influencing the electrochemical corrosion behavior of Co-Cr and Ni-Cr dental alloys were studied using potentiodynamic polarization and AC impedance in 0.9% (mass fraction) NaCl solution at (37±1) ℃. The phase and microstructure of the alloys that were fabricated using two different casting methods viz. centrifugal casting and high frequency induction casting, were examined using X-ray diffraction analysis, scanning electron microscopy and energy dispersive spectroscopy. The roles of alloying elements and the passive film homogeneity on the corrosion resistance of Co-Cr-Mo and Ni-Cr-Mo dental cast alloys were reviewed. The results of electrochemical study show that the dependence of corrosion resistance on the microstructure associated with the casting methods is marginal. The Co-Cr alloy exhibits more desirable corrosion resistance properties than the Ni-Cr alloy. There is severe preferential dissolution of Ni-rich, Cr and Mo depleted zones in the Ni-Cr alloy.

Shape Memory Effect of As-aged Fe-14Mn-5Si-8Cr-4Ni-0.2C Alloy

The effects of aging temperature on shape memory effect, mechanical properties and microstruc-ture of Fe-14Mn-5Si-8Cr-4Ni-0.2C shape memory alloy have been studied. The results showed that the second phase particles rich in chromium, manganese and silicon precipitate during aging, and thereby increase the hardness and strength of the alloy. The shape recovery ratio can be remarkably improved by aging and a maximum value can be obtained at 1223 K, which is 68% higher than that of the specimen in solid solution state. When the aging temperature is below 1223 K, the amount of second phase particles increases as the aging temperature increases. The size of austenite grain increases with increasing aging temperature. When the temperature is over 1223 K, the second phase particles can not precipitate. The lack of second phase particles and the increase of grain size make the hardness and shape recovery ratio drastically decrease, when the temperature is over 1223 K.

Al-Cr-Fe-Mn-Ni高熵合金中的L2_(1)相的相稳定性及其性能研究

为开发兼具良好强度与塑性的BCC基高熵合金,可引入与基体共格的B2或L2_(1)相。L2_(1)相具有更好的抗蠕变性能,有望在高温环境中得到应用。但是,目前对BCC型高熵合金中L2_(1)相的存在规律、相稳定性及其对合金性能的影响还缺乏深入的研究。为此,本工作研究了电弧熔炼制备的铸态Al_(0.5)Cr_(2.5-x)FeMn_(x)Ni(x=0.5~1.75)、Al_(0.75)Cr_(2.25-y)FeMn_(y)Ni(y=0.25~1.5)、AlCr_(2-z)FeMn_(z)Ni(z=0.5~1.5)高熵合金的相组成,及800℃或1000℃真空退火120 h对合金组织和相组成的影响。研究表明,这些合金中L2_(1)相的成分特征由40%~50%(原子分数)Ni和15%~20%(原子分数)Al、Mn组成。L2_(1)相只存在于Al含量为10%~15%(原子分数)的合金中,且多以BCC+L2_(1)两相共存,获得的组织为编织网状的调幅分解组织。当Al含量达到20%(原子分数)后,合金则由BCC+B2两相构成。L2_(1)相的存在会使BCC型XRD特征峰出现明显的峰分裂。经过800℃或1000℃退火后,合金中L2_(1)相仍能稳定存在,合金显微组织发生粗化并会形成σ或FCC相。铸态合金的硬度随Mn含量的增加而降低,含L2_(1)相的合金的硬度在463HV~558HV范围内。800℃退火会使含5%~15%(原子分数)Mn的合金硬度降低70HV~100HV,但由于硬质σ相的析出,含20%~30%(原子分数)Mn的合金硬度提高200HV以上;1000℃退火后,由于软质FCC相的形成,合金的硬度略有降低,这些结果将为BCC型高熵合金的设计奠定基础。

导流管参数对真空紧耦合气雾化法制备Fe-Cr合金粉末的影响

采用真空紧耦合气雾化法制备Fe–Cr合金粉末,研究了导流管直径与导流管伸出长度对Fe–Cr合金粉末粒度分布、收得率、中位粒径(D_(50))的影响。结果表明,在其他工艺参数不变的情况下,当导流管直径从4.5 mm增大到6.0 mm时,Fe–Cr合金粉末累积粒度分布曲线右移,中位粒径增大,细粉收得率减小,粉末流动性减小,松装密度减小;当导流管伸出长度由2.0 mm增加到2.5 mm时,Fe–Cr合金粉末累积粒度分布曲线左移,中位粒径减小,细粉收得率增加,粉末流动性增加,松装密度升高。综上所述,雾化压力3.8 MPa,过热度250℃,导流管直径4.5 mm,导流管伸出长度2.5 mm,制备得到的Fe–Cr合金粉末综合性能最优。

Electrochemical corrosion behavior of Cu-40Ni-20Cr alloys with different grain sizes in solutions containing chloride ions

The electrochemical corrosion behavior of the two Cu-40Ni-20Cr alloys prepared by conventional casting(CA) and mechanical alloying(MA) with the different grain sizes was studied by using open-circuit potential(OCP), potentiodynamic polarization and electrochemical impedance spectroscopy(EIS) methods in solutions containing chloride ions. The results show that the free corrosion potentials of the two alloys move towards negative values, corrosion currents increase and therefore corrosion rates become faster with the increase of chloride ion concentrations. EIS plots of CACu-40Ni-20Cr alloy are composed of single capacitive loop, while EIS plots of MACu-40Ni-20Cr alloy are composed of double capacitive loops in solution containing lower chloride ion concentrations. EIS plots of the two alloys have Warburg impedance with the increase of chloride ion concentrations. Corrosion rates of MACu-40Ni-20Cr alloy become faster than those of CACu-40Ni-20Cr alloy obviously in solutions containing the same chloride ion concentrations because MACu-40Ni-20Cr alloy is able to produce large concentrations of grain boundaries in the course of reduction in grain size by mechanical alloying.

Density of Liquid Ni-Cr Alloy

The density of liquid Ni-Cr alloy was measured by a modified sessile drop method. The density of liquid Ni-Cr alloywas found to decrease with increasing temperature and Cr concentration in the alloy. The molar volume of liquidNi-Cr alloy increases with increasing the Cr concentration in the alloy. The molar volume of Ni-Cr alloy determinedin the present work shows a positive deviation from the linear molar volume.

Ni-Cr alloy electrodepositing technology on Fe substrate and coating performance

The Ni-Cr alloy electrodepositing technology on iron substrate in the chlorid-sulfate solution and the impacts of main processing parameters on coating composition were studied. The optimal Ni-Cr alloy electrodepositing conditions are that the cathode current density is 16 A/dm^2,the plating solution temperature is 30℃ and the pH value is 2.5. The bright, compact coating gained under the optimal conditions has good cohesion and 24.1% Cr content. The results show that the coating is composed of crystalline, the average grain size is 82 nm and the higher the Cr content of coating, the larger the rigidity, and the higher the corrosion resistance. The rigidity of coating reaches 78.6(HR30T) and the passivation area broadens to 1.4 V when the Cr content of coating is 24.1%.

Preparation and mechanical properties of Ni-Cr-Al alloy by EB-PVD

Ni-Cr-Al alloy was deposited by electron beam-physical vapor deposition(EB-PVD) method. The microstructure was investigated on as-deposited and long-term aged alloy. The results indicate that grain on surface of as-deposited alloy is about 185 nm in size, and a laminated structure in cross-section is observed. However, after aging for 16 and 120 h at 760 ℃, the laminated structure is dissolved, and the individual grain can be seen clearly. Columnar crystals form on the evaporation side, and exquiaxed grains form on the substrate side. The major precipitate is γ′ phase after prolonged aging at 760 ℃. Mechanical properties of the Ni-Cr-Al alloy were also studied. The results show that the fracture of as-deposited alloy has mixed type at room temperature, and intergranular fracture among columnar crystals is observed. Compared to that of as-deposited alloy, fracture of alloy after aging for 16 and 120 h at 760 ℃ appears to involve ductile fracture with dimples.