Mo-C棒的横向弯曲性能

采用弯曲性能测量、晶内及晶界的显微硬度测试、金相显微镜、扫描电镜观察等方法,对不同状态下的Mo-C棒横向弯曲性能及组织进行研究。研究结果表明:Mo-C棒再结晶开始温度在950℃左右,在1200℃时基本形成了等轴晶组织;当退火温度低于1200℃时,随着退火温度的升高,合金的横向弯曲性能逐渐提高,在1100～1200℃时,合金的横向弯曲延伸率最高,达到5%。添加碳后,合金的晶界显微硬度比合金的晶内显微硬度高150MPa左右;纯钼的断裂方式以沿晶断裂为主,添加碳后,由于合金的晶界强度得到提高,合金的断裂方式变成以穿晶断裂为主,断口上有大量的解理面,具有明显的河流状花样和解理台阶,且塑性越好的断口,撕裂岭也越多;当添加的碳含量偏高时,在晶界处产生了大颗粒的碳化物,这种大颗粒的碳化物会降低合金的塑性。

C含量对Mo-C棒横向弯曲性能的影响

利用弯曲性能测量、金相、SEM观察和EDS分析等方法,对不同C含量的Mo-C棒横向弯曲性能及组织进行研究。结果表明:1号Mo-C棒中C含量(摩尔分数)为290×10-6,O含量为25×10-6,2号Mo-C棒中C含量为150×10-6,O含量为25×10-6;在同样条件下,2号Mo-C棒的横向弯曲性能更好;2号Mo-C棒的再结晶温度为950～1100℃左右;随着退火温度的升高,合金的横向弯曲性能逐渐提高,在1100℃时,合金的横向弯曲伸长率最高,达到10%;纯钼的断裂方式以沿晶断裂为主,添加C后,合金的裂纹扩展应力得到提高,合金的断裂方式变成以穿晶断裂为主,断口上有大量的解理面,具有明显的河流状花样和解理台阶;当添加的C含量偏高时,合金中生成大颗粒的碳化物,这种大颗粒的碳化物降低了合金的塑性。

Mo-Ce/SiO_2催化剂上甲醇氧化制甲醛的催化剂的有效因子及甲醇的压力分布

在Mo-Ce/SiO_2催化剂上甲醇氧化制甲醛的动力学方程可表达为甲醇及甲醛吸附的Redox机理方程,当催化剂颗粒直径增大到3mm时,内扩散强烈地影响反应速度。催化剂有效因子η可用一般速度方程的近似方法进行解释。催化剂孔内甲醇的压力分布可用下式求得:

Enhanced Photoelectric Property of Mo-C Codoped TiO2 Films Deposited by RF Magnetron Cosputtering

Mo-C codoped TiO2 films were prepared by RF magnetron cosputtering. Ultraviolet-visible spectroscopy, atomic force microscopy, X-ray photoelectron spectroscopy, energy dispersive X-ray Analysis and X-Ray Diffraction were used to study the influences of codoping on energy gap, surface morphology, valence states of elements, ions content and crystal structure, respectively. The concentration of photogenerated carriers was measured by studying photocurrent density, while catalytic property was evaluated by observing degradation rate of methylene blue under visible light. A Mo-doped TiO2 film, whose content of Mo had been optimized in advance, was prepared and later used for subsequent comparisons with codoped samples. The result indicates that Mo-C codoping could curtail the energy gap and shift the absorption edge toward visible range. Under the illumination of visible light, codoped TiO2 films give rise to stronger photocurrent due to smaller band gaps. It is also found that Mo, C codoping results in a porous surface, whose area declines gradually with increasing carbon content. Carbon and Molybdenum doses were delicately optimized. Under the illumination of visible light, sample doped with 9.78at% carbon and 0.36at% Mo presents the strongest photocurrent which is about 8 times larger than undoped TiO2 films, and about 6 times larger than samples doped with Mo only.

Ti6Al4V等离子表面Mo-Cr共渗腐蚀性能研究

叙述了用双层辉光等离子冶金技术在钛合金Ti6Al4V表面进行Mo-Cr共渗,Mo-Cr合金层在5.0%H2SO4,5.0%HCl和3.5%NaCl溶液中的电化学腐蚀性能以及用SEM/EDS和XRD分析Mo-Cr共渗表面合金层的微观组织和相组成的结果。指出,Mo-Cr合金层均匀、连续且致密,与基体呈现良好的冶金结合状态;合金层中Mo,Cr元素含量呈梯度变化,由表及里逐渐减少,厚度约为22μm,其中,0μm^10μm处基本上为沉积层,在10μm^22μm处为扩散层。电化学腐蚀试验证明Mo-Cr共渗后试样的耐蚀性优于基体,合金层的腐蚀性能得到提高。