×××机翼主梁的寿命分布研究

本文通过运用Ｗ∧２统计量的检验方法对ＸＸＸ飞机八个失效的机翼主梁寿命分布进行了检验,得出该主梁寿命分布为威布尔分布。     

低含气率影响下圆柱动静压轴承特性分析

为研究低含气率条件下,温度和气泡含量对润滑油黏度的影响,采用涡轮油和氮气制备油气两相流,在不同温度下采集含气率和动力黏度,拟合得到两相流的黏度计算模型.针对带有深浅腔的圆柱动静压轴承,基于拟合的黏度模型,结合有限元法和有限差分法联立求解油膜Reynolds方程、能量方程及两相流等效密度模型,分析了不同偏心率下承载力、摩...     

一种基于多霍尔的磁悬浮反作用飞轮速率模式控制方法

针对磁悬浮反作用飞轮速率模式高精度驱动控制问题,采用27个开关式Hall位置传感器,提出基于常增益卡尔曼滤波转速估计算法的转速测量方法,有效提高了飞轮转速控制精度。实验结果表明,低转速时,与12个Hall位置传感器测速方法相比较,力矩输出精度提高了一个量级,达到3×10-4N.m。     

基于HTN的卫星应用任为分解方法

文章在深入分析卫星应用任务复杂性的基础上,研究了层次任务网络(HTN)方法对复杂卫星应用任务分解问题的适用性,并给出了相应的问题求解框架;深入研究了卫星应用任务需求要素预处理工作的主要内容和步骤,并在此基础上构建了卫星应用任务的域模型;最后给出了复杂任务及其分解方法的定义,采用基于HTN的方法对复杂卫星应用任务分解问题进行求解,同时给出了基于HTN的状态空间前向搜索算法.     

高强度钢Domex700MCD焊接性能研究

分析了Domex700MCD焊接性,并通过试验及数据分析表明,在焊接工艺中,采用混合气体保护焊、低合金结构钢焊丝ER69-3,通过控制焊接线能量,运用合理的焊接规范,可获得良好的焊缝机械性能。     

一种Ka频段宽带3dB功分桥的实现技术研究

文章简要介绍了波导宽边耦合3dB功分桥的工作原理，重点阐述四耦合窗Ka频段宽带波导宽边耦合3dB功分桥的仿真设计过程、仿真结果以及最终的实物测试结果。最后得到一个性能优良的Ka频段宽带波导宽边耦合3dB功分桥。     

Application in prestiction friction compensation for angular velocity loop of inertially stabilized platforms

To overcome the influence of the nonlinear friction on the gimbaled servo-system of an inertial stabilized platforms(ISPs) with DC motor direct-drive, the methods of modeling and compensation of the nonlinear friction are proposed. Firstly, the inapplicability of LuGre model when trying to interpret the backward angular displacement in the prestiction regime is observed experimentally and the reason is deduced theoretically. Then, based on the dynamic model of direct-drive ISPs, a modified LuGre model is proposed to describe the characteristic of the friction in the prestiction regime. Furthermore, the state switch condition of the three friction regimes including presliding, gross sliding and prestiction is presented. Finally, a composite compensation controller including a nonlinear friction observer and a feedforward compensator based on the novel LuGre model is designed to restrain the nonlinear friction and to improve the control precision. Experimental results indicate that compared with those of the conventional proportion–integration–differentiation(PID) control method and the PID plus LuGre model-based friction compensation method, the dwell-time has decreased from 0.2 s to almost 0 s, the position error decreased to 86.7%and the peak-to-peak value of position error decreased to 80% after the novel compensation controller is added. It concludes that the composite compensation controller can greatly improve the control precision of the dynamic sealed ISPs.     

Aeroelastic two-level optimization for preliminary design of wing structures considering robust constraints

An aeroelastic two-level optimization methodology for preliminary design of wing struc- tures is presented, in which the parameters for structural layout and sizes are taken as design vari- ables in the first-level optimization, and robust constraints in conjunction with conventional aeroelastic constraints are considered in the second-level optimization. A low-order panel method is used for aerodynamic analysis in the first-level optimization, and a high-order panel method is employed in the second-level optimization. It is concluded that the design of the abovementioned structural parameters of a wing can be improved using the present method with high efficiency. An improvement is seen in aeroelastic performance of the wing obtained with the present method when compared to the initial wing. Since these optimized structures are obtained after consideration of aerodynamic and structural uncertainties, they are well suited to encounter these uncertainties when they occur in reality.     

Grinding performance evaluation of porous composite-bonded CBN wheels for Inconel 718

For high-efficiency grinding of difficult-to-cut materials such as titanium and nickel alloys, a high porosity is expected and also a sufficient mechanical strength to satisfy the function.However, the porosity increase is a disadvantage to the mechanical strength. As a promising pore forming agent, alumina bubbles are firstly induced into the abrasive layer to fabricate porous cubic boron nitride（CBN） wheels. When the wheel porosity reaches 45%, the bending strength is still high up to 50 MPa with modified orderly pore distribution. A porous CBN wheel was fabricated with a total porosity around 30%. The grinding performance of the porous composite-bonded CBN wheel was evaluated in terms of specific force, specific grinding energy, and grinding temperature, which were better than those of the vitrified one under the same grinding conditions. Compared to the vitrified CBN wheel, clear straight cutting grooves and less chip adhesion are observed on the ground surface and there is also no extensive loading on the wheel surface after grinding.