Microstructure,Elastic Modulus and Tensile Properties of Ti-Nb-O Alloy System

In the present study Ti-Nb binary alloy system was chosen because it has excellent biocompatibility as well as reasonable mechanical properties,aiming at understanding oxygen content on microstructural formation, elastic modulus and tensile properties in Ti-Nb alloy system.Small alloy buttons of 50 mm in diameter were prepared by arc melting on a water-cooled copper hearth under an argon gas atmosphere with a non-consumable tungsten electrode.The button ingots were then heat treated in a vacuum atmosphere at 1273 K for 0.5 h followed by water quenching in a specially designed heat treatment furnace.Microstructure,elastic modulus and tensile properties were investigated in order to understand the effect of oxygen content in quenched Ti- Nb alloy system.The orthorhombic structuredα″martensite was changed to bcc structuredβ-phase with increasing Nb content.Interestingly,it was found that oxygen makesβ-phase stable in quenched Ti-Nb alloy system.Elastic modulus values were sensitive to phase stability of constituent phases.Yield strength increased with increasing oxygen content.Details will be explained by phase formation and stability behavior.

以SiO_2/Si为衬底的Ba_(1-x)La_xNb_yTi_(1-y)O_3薄膜的敏感特性(英文)

通过离子束溅射技术淀积在SiO2 /Si衬底上的钛酸镧钡铌膜 (Ba1-xLaxNbyTi1- yO3) ,制成集薄膜电阻和金属 -绝缘体 -半导体 (MIS)电容为一体的传感器 .实验结果表明 ,薄膜电阻在 30 3～ 6 73K温度范围内对可见光和热具有良好的灵敏特性 ,同时MIS电容对相对湿度有很高的灵敏度 .我们测试了此薄膜的光吸收特性 ,并得到了它的禁带宽度 .最后 ,我们研究了薄膜电阻的阻抗温度频率特性和频率对MIS电容湿敏特性的影响 .

固溶热处理对热旋锻粉末冶金Ti-Nb-Ta-Zr-O合金微观结构与力学性能的影响

研究固溶热处理对采用热旋锻加工制备的粉末冶金Ti-Nb-Ta-Zr-O合金微观结构和力学性能的影响。结果表明,固溶热处理可使合金晶粒长大。在热旋锻和热处理后的合金中均可观察到α″马氏体相和孪晶存在。热旋锻加工后的合金中α″马氏体相是由加工过程中的应力诱发产生。而固溶热处理后合金中均匀分布的α″马氏体相则形成于热处理过程中。固溶热处理可使合金的塑性提高,伸长率由热处理前的29%增加至热处理后的37%,弹性模量降低,同时强度保持不变。固溶热处理使得合金的"多峰应力振动"现象消失。

相场法模拟弹性应变能对Ti-Al-Nb合金α_2→O相变粗化动力学的影响

采用相场方法模拟了Ti-Al-Nb合金α2→O相转变,探讨了有无外力场作用下弹性应变能对O相颗粒形貌、取向、数目、体积分数及平均尺寸的影响.结果表明:在弹性应变能作用下,颗粒形貌为长方块状,且沿弹性软方向分布;无外力场时,弹性应变能越大,沉淀相越易形核,稳定时颗粒数目越多,体积分数及平均尺寸越小;在外力场作用下,取向有利的变体优先长大,取向不利的变体长大受到抑制;在较小压应力作用下,沉淀相易于形核,稳定时颗粒数目增多,体积分数减小;在拉应力或较大压应力作用下,应力越大,越难于形核,稳定时颗粒数目越少,体积分数越大.

非线性弹性材料Ti-Nb-Ta-Zr-O合金的力学性能测试方法与分析

采用循环加载-卸载的测试方法确定非线性弹性材料Ti-Nb-Ta-O系钛合金的弹性极限和0.2%屈服强度,分别获得了Ti-23Nb-0.7Ta-2Zr-1O、Ti-23Nb-0.7Ta-2Zr-1.2O、Ti-23Nb-0.7Ta-2Zr-0.7O、Ti-25Nb-0.7Ta-2Zr-1.2O四种合金的力学性能参数。通过比较发现,随着合金元素含量的提高,合金的弹性极限、屈服强度和抗拉强度提高,但弹性模量也升高,塑性降低。变形率对提高合金弹性极限有显著的作用,而对屈服强度和抗拉强度影响不大。元素含量提高和变形率增大都使拉伸曲线更加平直化。

氧含量对Ti-36Nb-2Ta-3Zr-xO合金阻尼性能的影响

采用真空非自耗熔炼法制备Ti-36Nb-2Ta-3Zr-xO(x=0,0.1,0.3,0.5,质量分数,%)合金,通过X射线衍射(XRD)仪、万能试验机、动态热机械分析(DMA)仪等测试方法研究了氧含量对固溶态Ti-36Nb-2Ta-3Zr-xO合金组织、力学性能和阻尼行为的影响。结果表明:氧元素对α″相具有抑制作用。合金呈现Snoek弛豫型阻尼特征并具有良好的高温阻尼性能,其阻尼值随着氧含量的增加而提高,而峰温无明显变化。测试频率为1.0 Hz时,合金的阻尼值从0.0283(x=0)提高到0.0355(x=0.5),峰温在230℃左右。