氮化硅高温透波材料的研究现状和展望

从氮化硅的晶体结构出发,介绍了氮化硅陶瓷优良的性能,综述了近年来氮化硅透波纤维和氮化硅基透波复合材料的研究进展,并对现有氮化硅高温透波材料体系存在的问题及其未来的发展趋势作了展望.     

基于柱状结构的热障涂层隔热性能数值研究

基于四参数随机生长方法和热阻网络方法开发了涂层微结构构建和隔热性能分析软件,构建了各向异性孔隙结构的柱状涂层微结构,着重研究了柱状孔隙大小、数量和细长化对柱状涂层有效导热系数和隔热性能的影响。结果表明:提高涂层的孔隙率是增强涂层隔热性能的有效途径;孔隙率一定时,随着柱状孔隙直径减小,其隔热性能增强,并且结构更加稳定;孔隙率一定时,随着柱状孔隙细长化,其隔热性能在一定程度上会有所减弱,但其稳态导热温度分布更加均匀,结构更加稳定。     

航天器表面充电模型研究:Ⅱ—航天器表面电势模型和计算

处于空间电环境条件下的航天器表面会出现电荷积累,形成高的电势值。已提出不少模型和计算方法以求评估航天器的电势绝对值。对此本文作了较详细的介绍和讨论。     

自激励式电磁铆接放电电流分析

电磁铆接是一种将电磁能转化为机械能的铆接工艺。传统感应式低电压电磁铆接存在能量利用率低、难以解决高强度大直径铆钉和难成形材料铆钉的铆接等问题。基于自激励式电磁铆接技术,建立放电电流分析模型,通过数值分析与工艺试验探讨自激励式电磁铆接进行大直径铆钉成形的可行性。研究结果表明建立的电磁铆接放电电流分析模型可实现传统感应式和自激励式电磁铆接放电电流分析,分析结果与试验吻合较好;放电能量相同时,自激励式电磁铆接的涡流斥力峰值要远大于感应式的涡流斥力,能有效提高能量利用率,是实现大直径铆钉成形的有效方式;在放电电压为320V时,自激励式电磁铆接可实现直径为10mm的45号钢铆钉的成形,其变形以绝热剪切的方式进行。     

长寿命热障涂层的剥落机理及抗剥落结构设计

涂覆于高温合金热端部件表面的热障涂层,具有隔热防护作用,属新一代燃气轮机的关键核心技术。等离子喷涂制备的热障涂层隔热性能好,但长时间高温服役后存在开裂剥落问题,引发基体烧蚀、造成巨大经济损失。因此,发展长寿命热障涂层是该技术领域的重大难题。本文从等离子喷涂热障涂层的独特层状结构特征入手,阐述涂层在高温服役中结构和性能的演变规律,揭示涂层剥落失效机理,总结长寿命热障涂层设计方法。研究表明,等离子喷涂热障涂层呈现以连通2D孔隙为主的层状多孔结构,具有优异的隔热功能和协调应变能力。然而,涂层在高温服役中发生烧结,2D孔隙大量消失,涂层显著刚化,使热障涂层开裂驱动力急剧增加,引发微观裂纹扩展并贯通形成大尺度裂纹,导致涂层最终剥落失效。据此,分别从降低开裂驱动力和增加开裂阻力两方面着手,总结抗开裂新结构涂层设计方法,为研发长寿命热障涂层指明了发展方向。在未来研究中,如何保证涂层高隔热和长寿命并同时兼顾经济性,是发展新一代高性能热障涂层的重点方向。     

填充复合型聚合物基电磁屏蔽材料研究进展

综述了近年来填充复合型聚合物基电磁屏蔽材料的国内外最新研究进展,按照填料结构形态（纳微粒子颗粒型填料、高长径比结构填料、片层结构填料、三维网状框架结构填料）,对相关复合材料电磁屏蔽性能数据进行统计和对比。围绕构筑高效导电网络的目标,从导电填料选择与处理、基体结构设计与制备方法等角度对聚合物基电磁屏蔽材料进行详细分析与总结,阐明了聚合物基电磁屏蔽材料研究现状及关键问题,阐述了聚合物基电磁屏蔽材料的研究方向和未来发展趋势。     

Flow field generated by a dielectric barrier discharge plasma actuator in quiescent air at initiation stage

A single Dielectric Barrier Discharge (DBD) plasma actuator driven by Alternating Current (AC) power, capable of inducing a starting vortex and a wall jet in quiescent air, is suited for low-Reynolds-number flow control. However, the starting vortex and the wall jet are usually observed after the plasma actuator has been operated for dozens of and hundreds of cycles of the voltage, respectively. The detail of the induced flow field at the initiation stage of the plasma actuator has rarely been addressed. At the initiation stage, a thin jet that provides the impetus for the entrainment of the induced flow at the beginning of the plasma actuation is first observed by using a high-accuracy phase-lock Schlieren technique and a high-speed Particle Image Velocimetry (PIV) system. This is the initial form of the momentum transfer from the plasma to the fluid. Then, an arched type jet is created by the plasma actuator. In addition, the whole development process of the induced flow field from the starting point of the thin jet to the quasi-steady stage of wall jet is presented for providing a comprehensive understanding of the plasma actuator and proposing a relevant enhancement of the numerical simulation model.     

Acceleration of DDT by non-thermal plasma in a single-trial detonation tube

This paper compares the flame acceleration in single-trial dual-detonation tubes triggered by a spark plug and non-thermal plasma igniter. The low-temperature plasma was generated by an in-house novel AC-driven dielectric barrier discharge igniter, which reduces the power supply requirements and was applied in the quiescent ignition of a single-trial detonation tube. Three different types of detonation mixtures were tested with flame propagation tracked by ion probes and pressure waves recorded by high-frequency pressure transducers. The flame propagation speeds were calculated and compared based on signals from the ion probes. The detonation combustion succeeded in the dual tubes, but the deflagration-to-detonation transition could be significantly accelerated by the plasma for all mixtures, as it was shortened by more than 50% compared to that of the spark plug. The present study provides a suitable technological approach for igniters of PDEs.     

喷枪空间行进速率对等离子喷涂Mo/8YSZ复合涂层温度场的影响

为了突破传统金属/陶瓷双层热防护涂层高温环境易剥离的技术瓶颈,研究喷枪空间行进速率变化对等离子喷涂Mo/8YSZ复合涂层时间域及空间域温度场分布的影响规律。利用ANSYS有限元分析软件,建立等离子喷涂Mo/8YSZ功能梯度热障涂层的数值模型,考虑材料不同温度下的热物性参数和材料的相变潜热,通过分析不同喷枪空间行进速率下喷涂构件的温度与温度梯度发现:在喷涂过程的同一时刻,喷枪行进速率越大,单位长度内喷枪与构件相互作用的时间越少,构件的最大温度值越小,构件上表面温度分布的均匀性越高,构件的最大温度梯度值越小;先沉积的涂层对后沉积的涂层存在预热作用,基体的最大温度值呈"台阶式"升高的变化趋势;随着涂层厚度的增加,涂层的热阻增加,基体温度的波动幅度逐渐减小;通过调控各涂层的喷枪行进速率,可进一步减小构件的温度梯度,按照黏结层最大、过渡层次之、陶瓷层最小的顺序进行喷涂时,喷涂构件的温度梯度最小。     

Effect of boron doping on waterproof and dielectric properties of polyborosiloxane coating on SiO2f/SiO2 composites

A hydrophobic coating of the silica fiber reinforced silica composites (SiO_2f/SiO₂) was synthesized by sol-gel method using methyltriethoxy-silane (MTES) and boric acid (B(OH)₃) as raw materials. The relationship among boron doping, chemical structure of precursors and durability of hydrophobic coatings was discussed. The Si-O-B and methyl groups were successfully introduced in the gel precursors according to the FT-IR and XPS results. The resins were filled in the internal and surface holes of the SiO_2f/SiO₂ composites partially or completely, which is beneficial to reduce the physical adsorption of the moisture. In addition, hydroxyl groups of the SiO_2f/SiO₂ composites reacted with the resins and hydrophobic methyl groups were introduced, leading to the reduction of the chemical adsorption of water. Also, the boron doping was beneficial to enhancing the physical cross-linking between the coating and the SiO_2f/SiO₂ composites, and improved the adhesion of the coating to the substrate. The results show that the optimal hydrophobic coating with contact angle 130.33°, moisture absorption 0.33% and adhesion level 1 is obtained when the molar ratio of MTES to B(OH)₃ is 10:4. The real permittivity of M10B4 is constant in the range of 2.32–2.51 and the dielectric tangent loss is constant in the range of 5.5 × 10⁻⁴–8.7 × 10⁻³. The hydrophobic coating has excellent dielectric properties.