Sm2Zr2O7基热障涂层材料研究现状

由于航空发动机不断向高效率、高推重比方向发展,发动机热端部件表面热障涂层的服役条件也越来越苛刻。稀土锆酸盐作为新型热障涂层材料,其开发和应用受到越来越多国内外学者的关注。Sm₂Zr₂O₇材料在一系列稀土锆酸盐中具有烧绿石结构稳定、低热导率和高热膨胀系数等优点,具有良好的应用前景。为满足热障涂层更高的服役要求,Sm₂Zr₂O₇的掺杂改性及性能研究也成为了研究热点。首先,对热障涂层材料进行了简要概述,然后就Sm₂Zr₂O₇基陶瓷材料及其涂层的晶体结构、热物理性能、力学性能以及抗腐蚀性能等的研究进展进行了详细的介绍,为该材料在热障涂层领域的研究及应用提供参考。     

等离子-物理气相沉积硅/莫来石/硅酸镱环境障涂层的高温防护和耐热冲击性能研究

通过SiCf/SiC复合材料表面等离子喷涂(APS)硅黏结层和莫来石中间层,等离子-物理气相沉积(PS-PVD)制备硅酸镱面层,喷涂的整个环境障涂层体系组织致密,PS-PVD工艺制备的硅酸镱为层状结构,孔隙率＜1％.研究了 SiCf/SiC复合材料环境障涂层的抗静态氧化、循环氧化、水汽腐蚀和热冲击性能,发现复合材料表面...     

热、力耦合作用下热障涂层的失效机制

针对热障涂层服役环境中热物理化学环境与机械载荷耦合作用的特点,采用交流阻抗谱法与声发射法对热障涂层在恒定外载荷(高温蠕变)以及交变载荷(高温低周疲劳)作用下的失效过程进行了考察分析,研究发现,交流阻抗谱中低频段阻抗值的变化可以有效地反映热障涂层热氧化层内横向裂纹的萌生及扩展;有无外机械载荷作用下热障涂层的热循环失效的模式截然不同,在高温蠕变条件下,热障涂层的裂纹并不产生在热氧化层内,而是产生在热氧化层与柱状晶之间的等轴晶区;而在高温低周疲劳条件下裂纹是在粘结层与高温合金基体的扩散层处.      

高速齿轮的气障特性分析

利用计算流体动力学方法,建立齿轮高速旋转在周围产生的流场与压力场计算模型,对不同的齿轮工况参数进行了计算与分析。在此基础上,建立齿轮喷油润滑的二相流模型,对喷油参数与齿轮工况的匹配进行研究,并对齿轮旋转压力场的计算进行了仿真验证。结果表明,齿轮转动时会在周围形成气体压力场,对喷油射流产生阻碍作用,造成轮齿润滑与冷却失效。本文的研究成果将用于指导新一代高性能齿轮的喷油润滑设计。     

等离子体气动激励诱导空气流动的PIV研究

为了揭示等离子体气动激励与边界层相互作用的物理机制,作者进行了等离子体气动激励诱导空气流动的PIV研究.实验结果表明:毫秒、微秒等离子体气动激励诱导空气流动以“启动涡”和“壁面射流”的形式出现;当激励电压为12kV时,最大诱导速度约为3m/s;激励电压越大,“启动涡”和“壁面射流”的强度越大;脉冲激励的作用强度和作用范围要强于定常激励.该结论为提高等离子体流动控制的作用能力提供了指导.     

Aerodynamic performance enhancement of a flying wing using nanosecond pulsed DBD plasma actuator

Experimental investigation of aerodynamic control on a 35 swept flying wing by means of nanosecond dielectric barrier discharge(NS-DBD) plasma was carried out at subsonic flow speed of 20–40 m/s, corresponding to Reynolds number of 3.1 · 105–6.2 · 105. In control condition, the plasma actuator was installed symmetrically on the leading edge of the wing. Lift coefficient, drag coefficient, lift-to-drag ratio and pitching moment coefficient were tested with and without control for a range of angles of attack. The tested results indicate that an increase of 14.5% in maximum lift coefficient, a decrease of 34.2% in drag coefficient, an increase of 22.4% in maximum lift-to-drag ratio and an increase of 2 at stall angle of attack could be achieved compared with the baseline case. The effects of pulsed frequency, amplitude and chord Reynolds number were also investigated.And the results revealed that control efficiency demonstrated strong dependence on pulsed frequency. Moreover, the results of pitching moment coefficient indicated that the breakdown of leading edge vortices could be delayed by plasma actuator at low pulsed frequencies.     

Influence of the Interplanetary Magnetic Field on the Solar Wind Flow about Planetary Obstacles

The main effects caused by the interplanetary magnetic field (IMF) are analyzed in cases of supersonic solar wind flow around magnetized planets (like Earth) and nonmagnetized (like Venus) planets. The IMF has a relatively weak strength in the solar wind but it is enhanced considerably in the so-called plasma depletion layer or magnetic barrier in the vicinity of the streamlined obstacle (magnetopause of a magnetized planet, or ionopause of a nonmagnetized planet). For magnetized planets, the magnetic barrier is a source of free magnetic energy for magnetic reconnection in cases of large magnetic shear at the magnetopause. For nonmagnetized planets, mass loading of the ionospheric particles is very important. The new created ions are accelerated by the electric field related to the IMF, and thus they gain energy from the solar wind plasma. These ions form the boundary layer within the magnetic barrier. This mass loading process affects considerably the profiles of the magnetic field and plasma parameters in the flow region.     

High-entropy (La0.2Nd0.2Sm0.2Gd0.2Yb0.2)2(Zr0.75Ce0.25)2O7 thermal barrier coating material with significantly enhanced fracture toughness

Poor fracture toughness leads to premature failure of La₂(Zr_0.75Ce_0.25)₂O₇ (LCZ) thermal barrier coatings in an elevated temperature service environment. A novel coating material, namely (La_0.2Nd_0.2Sm_0.2Gd_0.2Yb_0.2)₂(Zr_0.75Ce_0.25)₂O₇ (LNSGY) based on the high-entropy concept, was successfully fabricated by solid-state sintering. The microstructure of LCZ and LNSGY was investigated by X-Ray Diffraction (XRD), Raman Spectrometer (RS), Transmission Electronic Microscopy (TEM) and Scanning Electron Microscopy (SEM). The fracture toughness of the LCZ and LNSGY ceramics was evaluated. The LNSGY has excellent high-temperature phase stability, and the grain size of LNSGY ceramic is smaller than that of LCZ ceramic at an elevated temperature due to the sluggish diffusion effect. Compared with LCZ (fracture toughness is (1.4 ± 0.1) MPa∙m^1/2), the fracture toughness of LNSGY is significantly enhanced (fracture toughness is (2.0 ± 0.3) MPa∙m^1/2). Therefore, the LNSGY can be a promising advanced thermal barrier coating material in the future.     

Turbulent boundary layer separation control using plasma actuator at Reynolds number 2000000

An experimental investigation was conducted to evaluate the effect of symmetrical plasma actuators on turbulent boundary layer separation control at high Reynolds number. Compared with the traditional control method of plasma actuator, the whole test model was made of aluminum and acted as a covered electrode of the symmetrical plasma actuator. The experimental study of plasma actuators' effect on surrounding air, a canonical zero-pressure gradient turbulent boundary, was carried out using particle image velocimetry(PIV) and laser Doppler velocimetry(LDV) in the 0.75 m × 0.75 m low speed wind tunnel to reveal the symmetrical plasma actuator characterization in an external flow. A half model of wing-body configuration was experimentally investigated in the  3.2 m low speed wind tunnel with a six-component strain gauge balance and PIV. The results show that the turbulent boundary layer separation of wing can be obviously suppressed and the maximum lift coefficient is improved at high Reynolds number with the symmetrical plasma actuator. It turns out that the maximum lift coefficient increased by approximately 8.98% and the stall angle of attack was delayed by approximately 2° at Reynolds number2 ×10~6. The effective mechanism for the turbulent separation control by the symmetrical plasma actuators is to induce the vortex near the wing surface which could create the relatively largescale disturbance and promote momentum mixing between low speed flow and main flow regions.     

我国农产品出口跨越绿色壁垒的政策选择

国际贸易中绿色贸易壁垒问题不可回避,农业作为一种弱质产业更容易受其影响。就我国农产品如何突破绿色壁垒、扩大农产品出口提出一些政策选择。