Solar Sources of Heliospheric Energetic Electron Events—Shocks or Flares?

Electrons with near-relativistic (E≳30 keV, NrR) and relativistic (E≳0.3 MeV) energies are often observed as discrete events in the inner heliosphere following solar transient activity. Several acceleration mechanisms have been proposed for the production of those electrons. One candidate is acceleration at MHD shocks driven by coronal mass ejections (CMEs) with speeds ≳1000 km s⁻¹. Many NrR electron events are temporally associated only with flares while others are associated with flares as well as with CMEs or with radio type II shock waves. Since CME onsets and associated flares are roughly simultaneous, distinguishing the sources of electron events is a serious challenge. On a phenomenological basis two classes of solar electron events were known several decades ago, but recent observations have presented a more complex picture. We review early and recent observational results to deduce different electron event classes and their viable acceleration mechanisms, defined broadly as shocks versus flares. The NrR and relativistic electrons are treated separately. Topics covered are: solar electron injection delays from flare impulsive phases; comparisons of electron intensities and spectra with flares, CMEs and accompanying solar energetic proton (SEP) events; multiple spacecraft observations; two-phase electron events; coronal flares; shock-associated (SA) events; electron spectral invariance; and solar electron intensity size distributions. This evidence suggests that CME-driven shocks are statistically the dominant acceleration mechanism of relativistic events, but most NrR electron events result from flares. Determining the solar origin of a given NrR or relativistic electron event remains a difficult proposition, and suggestions for future work are given.     

热处理对高Co-Ni超高强度钢冲击断口的影响

研究了不同固溶及回火温度对高Co-Ni超高强度钢23Co 14Ni12Cr3Mo的Charpy V型缺口试样冲击功AKV和硬度HRC的影响,并用扫描电镜观察分析不同处理状态下的冲击断口形貌,用透射电镜对未溶碳化物进行了分析.结果表明,在850～930 ℃范围内固溶,随温度的提高,冲击功升高,硬度先升高后降低;在454～510 ℃范围内回火,随温度的提高,冲击功也增加,硬度降低.断口形貌观察结果表明,试验用钢冲击断口形貌均呈韧窝状,为韧性穿晶断裂,随固溶温度升高韧窝变大变深.韧窝中发现M23C6型碳化物颗粒,随固溶温度的升高而逐渐减少,提高固溶温度对改善试验用材料综合性能有利.     

Foreign Object Damage to Fan Rotor Blades of Aeroengine Part Ⅱ： Numerical Simulation of Bird Impact

Bird impact is one of the most dangerous threats to flight safety. The consequences of bird impact can be severe and, therefore, the aircraft components have to be certified for a proven level of bird impact resistance before being put into service. The fan rotor blades of aeroengine are the components being easily impacted by birds. It is necessary to ensure that the fan rotor blades should have adequate resistance against the bird impact, to reduce the flying accidents caused by bird impacts. Using the contacting-impacting algorithm, the numerical simulation is carded out to simulate bird impact. A three-blade computational model is set up for the fan rotor blade having shrouds. The transient response curves of the points corresponding to measured points in experiments, displacements and equivalent stresses on the blades are obtained during the simulation. From the comparison of the transient response curves obtained from numerical simulation with that obtained from experiments, it can be found that the variations in measured points and the corresponding points of simulation are basically the same. The deforming process, the maximum displacements and the maximum equivalent stresses on blades are analyzed. The numerical simulation verifies and complements the experiment results.     

直接侧向力/气动力复合控制影响因素研究

为分析直接侧向力/气动力复合控制中的影响因素对控制效果的影响,给出了复合控制拦截器的典型布局,建立了直接侧向力/气动力复合控制分配模型;采用自适应动态逆方法形成虚拟控制律实现拦截器姿态控制,并进行了仿真验证与分析。仿真结果表明,不同发动机总数、发动机开关机周期和推力大小等因素对最终控制效果有直接的影响,且发动机开关机周期与推力的共同作用对控制效果影响明显。     

Ω长桁和T长桁的工艺对比分析研究

在飞机复合材料蒙皮类构件的设计制造过程中,早期设计阶段,对不同长桁结构进行工艺对比分析研究,有助于提高加筋壁板的结构性能、便于工艺优选、节约制造成本,实现面向制造的低成本最优化设计。针对飞机复合材料蒙皮与Ω长桁、T长桁共固化的典型结构,阐述二者的制造流程及工艺特点;从制造工艺、工时、花费、产品重量和抗冲击性能等方面,对比Ω长桁和T长桁的优缺点;提出在飞机设计制造的并行工程中进行不同结构工艺分析的方法。结果表明:Ω长桁相对T长桁,具有重量轻、抗冲击性能好等优点,但其制造工艺更为复杂,报废率高,制造成本较高。     

蜂窝夹层板撞击实验数据中的野值判别

基于超高速撞击物理实验数据对蜂窝夹层板撞击极限方程进行修正是获得高可信度新方程的一种常用方法,为了提高物理实验数据的可靠性,以国外131个碳纤维复合材料(CFRP)面板的蜂窝夹层板实验数据为对象,进行野值判别方法研究,发现该批数据中存在1个野值。将该野值剔除并基于剩余的130个数据重新进行方程修正后,新方程的总体预测率和安全预测率分别达到82.3%和93.1%,其绝对误差平方和、相对误差平方和分别为0.010、0.506,相对于剔除野值前的修正方程有所改善,表明实验数据野值判别方法可行、有效。为考核方法的适用性,对铝合金面板的蜂窝夹层板的实验数据也进行野值判别分析,结果显示该方法可合理识别野值。     

复合材料层合结构低速冲击后的渗漏性能

对复合材料贮箱结构进行低速冲击试验,并测试冲击后贮箱结构的渗漏性能。试验结果表明,当层板内部的基体损伤和分层损伤构成贯穿的通路后即导致贮箱渗漏,并且贮箱结构的冲击能量渗漏门槛值介于23~25J之间。在试验基础上建立了有限元模型以分析冲击后贮箱结构的内部损伤情况,并判断结构是否渗漏,计算结果与试验吻合良好。在计算模型的基础上对曲面贮箱结构的冲击渗漏性能进行分析。     

航天器贮箱变质量流固耦合系统的动力学响应

研究了航天器贮箱变质量流固耦合系统的动力学特性.根据虚拟质量法(VMM),结合边界元法和有限元法构建了系统的动力学模型,建模过程中着重考虑了质量变化对系统的动态影响.通过Newmark直接积分法计算出贮箱变质量系统的振动响应.结果表明:由于系统质量减少,引起了系统振动频率的增大,并产生一个附加负阻尼.系统的振动频率的范围可以通过系统质量的范围确定.变质量引起的附加负阻尼的大小与系统的质量变化率成正比.对于系统的横向振动,质量减少引起的附加负阻尼在整个过程对系统振动的影响比较稳定,对于系统的纵向振动,质量减少引起的附加负阻尼对系统振动的影响随时间的增加而增大.      

APU 转子爆破对防火墙影响的研究

APU是安装在民用飞机上的辅助动力装置,是飞机上重要的部件,因此必须考虑APU 转子爆破时小碎片对飞机安全的影响。通过有限元软件LS-DYNA,分别模拟了APU 转子爆破时小碎片对APU 防火墙以及3种不同厚度加强板的冲击计算。根据数值计算结果,选择合适的加强板方案,既能防止防火墙碰撞区被小碎片击穿,同时付出的重量代价又较小。通过对APU 防火墙增加加强板,确保APU 转子爆破时飞机的安全 性,满足AC20-128A 的设计要求。     

带迎角钨杆斜侵彻铝板数值仿真研究

为研究迎角对钨杆斜侵过程的影响,开展了带迎角钨杆斜侵彻铝板数值仿真研究。仿真中采用SPH方法,Shock状态方程和Steinberg本构模型。钨杆共有两种尺寸,分别为Φ10mm×23mm和Φ10mm×46mm。铝板厚10mm,撞击速度为2km/s,撞击角度为60°。为简化分析,将迎角分解为俯仰角和偏航角,其中俯仰角范围为-90°～90°,偏航角范围为0°～90°。对钨杆侵彻过程的分析结果表明：斜侵彻存在临界迎角,在临界迎角范围内钨杆所受力矩可忽略不计;在临界迎角范围外,钨杆将发生弯曲甚至折断。对钨杆的剩余质量分析结果表明：当偏航角为0°且钨杆未折断时,剩余质量只在较小的范围内变化;当俯仰角为0°时,剩余质量随迎角增加线性减小。对钨杆的剩余速度分析结果表明：偏航角对剩余速度的影响与俯仰角对剩余速度的影响基本一致,剩余速度曲线关于0°迎角基本对称。根据仿真结果,采用曲线拟合的方法给出了钨杆斜侵彻铝板的剩余速度经验公式。