一种重力势能驱动小车的设计与实现

结合大学生工程训练综合能力竞赛要求,开发了一种以重力势能驱动的具有方向控制功能的自行小车。该小车能按"S"轨迹自动行走并依次绕过赛道上设置的等间距障碍物,还能通过简单调节结构参数,适应障碍物的间距变化。通过对小车的机械系统进行精心设计和详细分析,从小车结构、装配以及调试等方面探讨了如何提高小车的运行精度以及稳定性等问题。实验结果表明:小车结构简单、运行平稳、轨迹准确,可较好地实现"S"轨迹自行越障功能,对此类小车的设计和工作性能提高有一定的参考价值。     

Effects of thickness and hydrophobicity of double microporous layer on the performance in proton exchange membrane fuel cells

In this paper, a multi-layer gas diffusion layer (GDL) is designed. The GDL consists of a single carbon paper backing layer and dual microporous layers (MPLs). Moreover, the effects of thickness and hydrophobicity of double MPL on the performance of proton exchange membrane fuel cells are investigated. From the test results of the water contact angle, conductivity, pore size distribution, and the polarization curve, it is found that the thickness adjustment increases the number of 0.5 to 7 μm and 20 to 100 μm pores in GDL, which is more conducive to water discharge. Therefore, the thickness adjustment is more favorable to the cell performance under high humidity. While the gradient hydrophobic design makes the MPL of the modified intermediate layer have a certain water-retaining capacity to humidify the reaction gas, which has better effect under low humidity. At last, the results show that the optimized GDL meets a limit power density of 1.772 W/cm² under 60% humidification and 1.600 W/cm² under 100% humidification.     

Preparation and lithium storage properties of Mo2N quantum dots@nitrogen-doped graphene composite

To improve the electrochemical lithium storage performance of molybdenum nitrides, Mo₂N quantum dots@nitrogen-doped graphene oxide sponge (Mo₂N-QDs@Ngs) was prepared by hydrothermal reaction, freeze-drying and calcination in H₂/N₂ mixture with ammonium molybdate ((NH₄)Mo₇O₂₄·4H₂O), hexamethylenetetramine (C₆H₁₂N₄) and graphene oxide (GO) as raw materials. The effect of GO content on the electrochemical lithium storage performance was investigated. The transmission electron microscope (TEM) results show that the size of the prepared Mo₂N quantum dots is about 2—5 nm, and the Mo₂N quantum dots are uniformly distributed on the surface of nitrogen-doped graphene. The electrochemical test results show that when the GO content is 30%, the prepared Mo₂N-QDs@Ngs-30 has the best electrochemical lithium storage performance, which has 699 mA·h·g^-1 specific capacity at the current density of 0.1 A·g^-1, and has 286 mA·h·g^-1 specific capacity even at the current density of 2 A·g^-1.     

粉末注射成形Fe-50%Ni软磁合金

Fe-50%Ni合金是一种典型的高磁导率和低矫顽力的软磁材料,有着广阔的应用前景.本次实验以羰基铁粉和羰基镍粉为原料粉末,采用注射成形方法制取Fe-50%Ni软磁合金,研究了高能球磨制备粉末对注射成形工艺以及材料性能的影响.研究结果表明与未经过高能球磨的混合粉末相比,高能球磨改变了原料粉末的粒度和粒度组成,提高了粉末的振实密度,进而提高了装载量.通过显微组织分析得知,高能球磨能使两种粉末发生塑性变形并冷焊合,形成了复合粉,促进了两种成分之间发生扩散和固态反应,同时还增加了粉末颗粒的能量,使颗粒表面活化,促进了烧结,提高了烧结材料的致密度.本实验最终获得了高性能的软磁合金材料磁导率41.27 mH/m,饱和磁感应强度1.498 T,矫顽力7.533 A/m.所得到的软磁材料性能优于相应传统粉末冶金方法获得的材料性能.     

SURFACE CARBURIZATION OF TiAl BASED ALLOY

ＳＵＲＦＡＣＥＣＡＲＢＵＲＩＺＡＴＩＯＮＯＦＴｉＡｌＢＡＳＥＤＡＬＬＯＹ￥Ｈｕａｎｇ，Ｂａｉｙｕｎ；Ｈｅ，Ｙｕｅｈｕｉ；Ｑｕ，Ｘｕａｎｈｕｉ；Ｋｏｎｇ，Ｇａｏｎｉｎｇ（ＰｏｗｄｅｒＭｅｔａｌｌｕｒｇｙＲｅｓｅａｒｃｈＩｎｓｔｉｔｕｔｅ，Ｃｅｎｔｒａｌ...     

Electrochemical properties of Mg-based alloys containing carbon nanotubes

In this work, effects of partial substitution of Mg, Ni with AB₂ in Mg-based alloy and subsequent surface modification by further ball-milling with carbon nanotubes (CNTs) on electrochemical properties were investigated. Mg_1.9(AB₂)_0.1Ni_0.8 (AB₂=LaNi₂, LaNiCo and LaNiMn) alloys were prepared by solid-state diffusion method, the nanocrystalline Mg-based alloys were prepared by ball-milling the mixture of obtained Mg_1.9(AB₂)_0.1Ni_0.8 alloys and nickel powder. It was found that the electrochemical capacities of nanocrystalline Mg_1.9(AB₂)_0.1Ni_1.8 alloys were measured to be 460–490 mAh/g. The nanocrystalline Mg-based alloys containing carbon nanotubes (10 wt.%) obtained by ball-milling after 60 min were demonstrated to show improved electrochemical properties with respect to the original nanocrystalline Mg-based alloys. The electrochemical reaction activity was detected by electrochemical impedance spectra (EIS). Raman and X-ray photoelectron spectroscopy (XPS) proved the interaction between Mg_1.9(AB₂)_0.1Ni_1.8 alloys and carbon nanotubes after ball-milling, which resulted in an increase in the surface Ni/Mg ratio.     

Ti_3Al基合金(0001)_(α_2)//(110)_β界面价电子结构分析

基于固体与分子经验电子理论,以改进的TFD理论提出的电子密度连续的量子力学条件为判据,计算了Ti3Al基合金中(0001)α//(110)β2界面的价电子结构。对比分析了单相Ti3Al基合金2-Ti3Al2-(Ti)Al(0001)//(0001)ααxMy界面与多相Ti3Al基合金(0001)α2-Ti3Al//(110)β-Ti0.5xAl0.5M0.5y,(0001)α2-(TixMy)Al//(110)β-Ti0.5xAl0.5M0.5y界面电子结构。从电子结构层次上初步解释了延性β相改善合金薄弱的相界面电子结构与键结合,增加界面稳定性与连续性,提高合金强韧性的微观本质。     

金属注射成形Ti-6Al-4V烧结坯的力学性能与烧结时间关系

研究了在1260℃烧结时,烧结时间对Ti-6Al-4V烧结坯力学性能的影响.结果表明平均晶粒尺寸为45 μm的氢化-脱氢粉末样品在1 260C烧结3 h～6 h,其相对密度为95.6%～96.7%、拉伸强度648 MPa～686 MPa、屈服强度526 MPa～615 MPa,但延伸率仅小于4%.90%气雾化(晶粒尺寸为32.5 μm)和10%氢化-脱氢混合粉末样品在1 260℃烧结2 h～6 h,其相对密度大于95%、拉伸强度800 MPa～848 MPa、屈服强度712 MPa～762 MPa、延伸率7.4%～9.5%.混合粉末样品的力学性能几乎达到美国ASTM粉末冶金的标准.     

微细电极精密车削技术

对微细电极的精密车削工艺进行了研究，用人造金刚石刀具，加工出直径φ7μm的微细电极，用车削的φ11μm微细电极成功地加工出φ19μm的微细孔。研究结果表明，在微细电极的加工中，切削用量不仅对电极表面质量产生影响，而且关系到能否车削成功。     

TiAl基合金热处理显微组织缺陷

研究了等温锻造和热处理后ＴｉＡｌ基合金显微组织中晶粒尺寸不均匀参数，讨论了这种缺陷对ＴｉＡｌ基合金室温抗拉笥能的影响，提出了这种显微组织缺陷形成机理。