LY12/Cu双金属层合板的疲劳性能(Ⅰ)——面裂纹

考察了爆炸复合层状双金属板LY12 /Cu界面两侧材料弹塑性失配对面裂纹疲劳扩展行为的影响。结果表明 ,界面两侧材料的弹塑性失配对复合板面裂纹的扩展驱动力具有重要影响。当裂纹由弹性模量、屈服强度高的一侧向低的一侧扩展时 ,实际驱动力大于外加名义值 ;当裂纹由弹性模量、屈服强度低的一侧向高的一侧扩展时实际驱动力小于外加名义值 ,从而造成裂纹扩展的加速或止裂 ,其影响离界面越近效果越显著。但弹性失配在裂纹开始扩展直至界面的整个过程都起作用 ,而强度失配只在裂尖距界面一定距离内 (Rp)

LY12/Cu双金属层合板的疲劳性能(Ⅱ)——角裂纹

对爆炸复合双层金属板LY12 /Cu和LY12 /LY12中L T取向角裂纹的疲劳扩展行为进行了对比性实验研究和理论分析。结果表明 ,双层金属板的界面相性能、体积分数及界面两侧材料的性能差异对层合板中角裂纹的疲劳扩展具有重要影响。对由不同金属构成的双层复合板 ,角裂纹疲劳扩展过程中试样两侧面的裂纹长度不同 ,并且随着裂纹扩展其差距逐渐加大 ,但存在最大值Δac。当两侧面裂纹长度差Δa <Δac 时 ,两侧裂纹扩展速率不同 ;当Δa≥Δac 时 ,两侧裂纹扩展速率相同。对整个裂纹扩展过程可用Δac 和其后任一侧的裂纹扩展ΔK—da/dN曲线共同描述。

新颖的高灵敏度双金属层结构表面等离子波传感器的研究与优化设计

为了克服传统的表面等离子波传感器中金膜与玻璃棱镜基底附着力不足的缺陷,在金膜与棱镜之间增加一层银膜,从而有效地增加了金属膜与玻璃棱镜的附着强度,并增加了设计的自由度,通过基因算法对两金属层厚度优化设计,使得现在的设计不仅结构更加稳定,而且探测的灵敏度和线性度比起原有设计都得到有效提高。

双金属层表面等离子体共振传感器灵敏度优化

为了优化表面等离子体共振传感器的灵敏度,基于薄膜光学理论,分析了银-金双金属层表面等离子体共振传感器的反射率和灵敏度随金属薄膜厚度变化的规律。发现在满足共振角反射率小于1%的条件下,银膜和金膜厚度存在一定的取值范围;在此厚度范围内,传感器的灵敏度随着金属薄膜(银膜与金膜)厚度的增大而提高,灵敏度增量最大可达5°/RIU。结果表明,在保证一定共振角反射率的前提下,可通过增加双金属层中金属薄膜的厚度提高双金属层表面等离子体共振传感器的灵敏度。

Ni/Ti双金属层的离子束混合与固态反应

本文用慢加热法和离子束混合法在Ni/Ti双金属层上形成无定形混合相。TEM截面图表明扩散过程导致非晶相形成,Ni为主要扩散元素。实验结果还表明离子束轰击增强了Ni的扩散。

双金属层堆焊法制备铸钢基体大型锻模

采用在铸钢基体上堆焊双金属层(过渡层和强化层)的方法设计与制造大型或超大型模锻液压机锻模。用MDS金相显微镜、SEM电子扫描显微镜、显微硬度测和试落锤冲击实验技术对铸钢ZG310-570双层堆焊试样进行了分析。结果表明,过渡层中含有的大量细小针状铁素体能提高模具韧性并改善强度,防止裂纹产生,并且有效地将表面强化层与铸钢基体层结合在一起,使整个试样的力学性能、硬度等呈逐步提高趋势,使过渡层具有良好的塑韧性。将该方法运用到40 MN热模锻压机用锻模的实际生产中,成功生产合格锻件7166件,模具寿命提高50%,成本降低20%。

铸钢基体双金属梯度制备锻模焊层厚度研究

将试验与有限元数值分析相结合,建立了某飞机起落架模具模型。采用弹塑性有限元方法模拟了坯料锻造成形过程,并分析了不同时刻模具温度场和应力场。结果表明,随时间增加,模具应力及温度均上升,模具充满时达到最大值,等效应力最大值出现在模具桥部圆角处,并且应力与温度随与该位置距离的增加而减小。分析坯料填充饱满时参考线位置的状态,结合实验得到铸钢基体、过渡层、表面层材料随温度变化的压缩屈服强度曲线,综合考虑各焊层厚度对模具性能的影响及控制模具制造成本等因素,设计在该工况条件下铸钢基体双金属梯度层总厚度为16 mm,其中表面强化层和过渡层的最优厚度均为8 mm。

双金属层表面等离子体共振传感器品质因子的研究

基于光学薄膜理论,研究了银-金双金属层表面等离子体共振(SPR)传感器品质因子的特征。首先,通过共振角处最低反射率的计算得到了双金属层的最佳厚度配比;其次,研究了最佳厚度配比下双金属层SPR传感器的线宽、灵敏度以及品质因子的特征。研究结果表明,随着双金属层中银膜厚度的增加(或金膜厚度的减小),传感器的灵敏度和线宽均减小,而传感器的品质因子增大。当双金属层SPR传感器中金膜厚度减小至0 nm时(单层银膜SPR传感器),传感器的品质因子达到最大值96.35 RIU-1。

异种金属和镀层金属的焊接

9742"采用过渡层法焊接不锈钢与紫铜/王志德//焊接技术一1997,(1)一45974257采用双金属的异种金属电阻焊[英」// Weld.一1994,73(2)一14 汽车制造中AJ板具有广泛的应用前景.但是这种金属与切的焊接十分困难。

EDTA掩蔽、丁二酮肟光度法测定锰基热双金属组元层合金中的镍

采用EDTA掩蔽法，消除了锰、铜的干扰。以过硫酸铵-丁二酮肟光度法测定锰基热双金属组元层合金（Mn72Ni10Cu18，Mn75Ni15Cu10）中的镍，无须分离镍，实现了在有大量锰、铜存在的条件下对镍的测定。

金银双金属纳米壳层结构的SERS活性研究

利用磁控溅射技术在组装整齐的微球表面依次镀上银、金薄膜,获得双金属纳米壳层结构。以对巯基苯胺(p-ATP)为探针分子,研究了该壳层结构在不同激发线下SERS增强差异。测试结果表明,金银双金属纳米壳层结构在780nm激光下具有很好的SERS增强效果,并随着外层金膜厚度的减小而逐渐增强。对各个基底的增强因子进行计算可知,基底的表面等离子体共振(SPR)峰与激发线的匹配程度越好,其增强因子越大。由于金的高稳定性和良好的生物相容性,该基底在SERS生物传感方面具有很大应用潜力。

10位逐次逼近型A/D转换器的芯片设计

介绍了一种10位、3M sample /s逐次逼近型A/D转换器的设计,描述了具有可变时钟电路结构的有效工作方式。该模数转换器在0.6μm 双多晶硅、双金属层CMOS工艺上实现,芯片总面积为3.2mm2。转换器采用单5V电源供电,功耗仅为35mW。

基于高反射率DBR薄膜的倒装LED电极结构优化设计

为提升LED芯片的光提取效率和电流扩展能力,设计了双金属层环形叉指结构ITO/DBR电极的大功率倒装LED芯片,并对分布式布拉格反射镜(DBR)薄膜和环形叉指电极结构进行了仿真优化计算。利用TFcalc软件仿真计算了DBR堆栈方式、堆栈周期和参考波长对DBR反射率的影响。仿真结果表明,优化设计的双堆栈DBR薄膜在234nm宽波长范围内反射率均高于95%,对应蓝黄光区域(440~610nm)平均反射率高达98.95%,参考波长红移可以缓解DBR反射偏振效应。利用SimuLED软件仿真计算了电极结构对芯片电流扩展能力的影响。仿真结果表明,350mA电流输入情况下,单金属层电极电流密度均方差为44.36A/cm^2,而双金属层环形叉指数目为3×3时,电流密度均方差降至14.37A/cm^2。双金属层环形叉指电极降低了p、n电极间距,减小了电流流动路径,芯片电流扩展性能明显提升。

高频窄脉冲超声聚焦传感器的工艺及应用

在双金属转子复合层全自动超声特征成像检测系统中,因柱塞孔孔径小、孔壁薄,针对此类扩散焊检测,为了提高超声成像系统的分辨率和信号的信噪比,研制了用于检测双金属转子复合层扩散焊连接质量的超声传感器。本文提出了用声程相等的理论来设计超声传感器的聚焦,利用耦合剂和工件声速的不同,把内孔铜层作为传感器的声聚焦透镜,用光学方法对传感器的聚焦声场进行了验证。制作的传感器中心频率为10MHz,波列只有2个周期,在实际的检测中可分辨0.5mm当量的缺陷。

Adsorption of glutamic acid from aqueous solution with calcined layered double Mg-Fe-CO_3 hydroxide

Layered double Mg-Fe-CO3 hydroxide （Mg-Fe-LDH） with a mole ratio of Mg to Fe of 3 was synthesized by coprecipitation method and calcined product Mg-Fe-CLDH was obtained by heating Mg-Fe-LDH at 500 ℃ for 6 h. The as prepared Mg-Fe-LDH and calcined Mg-Fe-CLDH were used for removal of glutamic acid （Glu） from aqueous solution, respectively. Batch studies were carried out to address various experimental parameters such as contact time, pH, initial glutamic acid （Glu） concentration, co-existing anions and temperature. Glu was removed effectively （99.9%） under the optimized experimental conditions with Mg-Fe-CLDH. The adsorption kinetics follows the Ho’s pseudo second-order model. Isotherms for adsorption with Mg-Fe-CLDH at different solution temperatures were well described using the Langmuir model with a good correlation coefficient. The intraparticle diffusion model fitted the data well, which suggests that the intraparticle diffusion is not only the rate-limiting step.

小孔径扩散焊质量检测用超声换能器的研制

为了提高超声成像系统的分辨率,研制了用于检测双金属转子复合层扩散焊连接质量的超声换能器.论文提出了用声程相等的概念来设计超声传感器的聚焦,详细介绍了其制作工艺,并利用数字动态光弹仪器对超声换能器的聚焦声场进行了验证.制作的换能器中心频率为10 MHz,波列只有两个周期,在实际的检测中可分辨0.5 mm当量的缺陷.

Preparation and characterization of MWCNTs/LDHs nanohybrids for removal of Congo red from aqueous solution

The assembly of layered double hydroxides （LDHs） and multi-walled carbon nanotubes （MWCNTs） nanohybrids was prepared as MWCNTs/LDHs by co-precipitation. The synthesized nanoparticles were characterized by using XRD, FT-IR, SEM/EDX, TGA and BET. XRD and SEM studies proved that MWCNTs phases did not enter into the interlayers of LDHs, they dispersed over the LDHs surface homogeneously. BET results showed that MWCNTs/LDHs possessed hierarchically porous nanostructure with large surface area （124.974 m^2/g） and great pore volume （0.604 cm^3/g）. Batch experiments were conducted to study the adsorption efficiency of Congo red （CR）. It was worthy to note that MWCNTs/LDHs exhibited excellent adsorption performance with the maximum CR adsorption capacity of 595.8 mg/g in weak acidic environment. The adsorption kinetics and isotherm parameters can be well described by the pseudo-second-order and the Langmuir isotherm models, respectively. The thermodynamic studies indicated that the adsorption process was spontaneous and endothermic.

Enhanced corrosion resistance of micro-arc oxidation coated magnesium alloy by superhydrophobic Mg-Al layered double hydroxide coating

To further enhance the corrosion resistance of the porous micro-arc oxidation(MAO) ceramic layers on AZ31 magnesium alloy, superhydrophobic Mg-Al layered double hydroxide(LDH) coating was fabricated on MAO-coated AZ31 alloy by using in-situ growth method followed by surface modification with stearic acid. The characteristics of different coatings were investigated by XRD, SEM and EDS. The effect of the hydrothermal treatment time on the formation of the LDH coatings was studied. The results demonstrated that the micro-pores and cracks of MAO coating were gradually sealed via in-situ growing LDH with prolonging hydrothermal treating time. Electrochemical measurement displayed that the lowest corrosion current density, the most positive corrosion potential and the highest impedance modulus were observed for superhydrophobic LDH/MAO coating compared with those of MAO coating and LDH/MAO coating. Immersion experiment proved that the superhydrophobic LDH/MAO coating with the active anti-corrosion capability significantly enhanced the long-term corrosion protection for MAO coated alloy.

Selenium(Ⅵ) removal from caustic solution by synthetic Ca-Al-Cl layered double hydroxides

To extract selenium(Ⅵ)from the highly caustic leachate of copper anode slime,the Ca-Al-Cl layered double hydroxides(Ca-Al-Cl-LDHs)with a formula of Ca2 Al(OH)6 Cl·2 H2 O by three co-precipitation methods were synthesized.A plate-like morphology and hexagonal crystal structure with typical mineral phases and functional groups were identified by the FESEM,XRD,FTIR,BET and XPS analysis.The forward feeding sample exhibits the best adsorption capacity of Se(Ⅵ).The factor experiments then reveal a favorable adsorption process with low temperature,low NaOH concentration and high adsorbent dosage.Furthermore,the adsorption kinetics and isotherm parameters can be well described by the Langmuir isotherm and the pseudo-second-order models,respectively.Accordingly,the maximum adsorption amount of Se(Ⅵ)onto Ca-Al-Cl-LDHs reaches188.6 mg/g at 50 ℃.