双偏振干涉式光纤陀螺的多相位调制技术

在双偏振干涉式光纤陀螺的发展过程中，光纤环上的应力、扭转等会造成正交偏振态之间的交叉耦合，降低陀螺系统的稳定性。提出了一种基于双偏振干涉式光纤陀螺的六态方波调制技术并进行了理论推导。该技术与传统的方波和四态方波调制相比，降低了偏振交叉耦合误差，提高了信噪比，大大增加了信号解算精度。通过实验对比测试了干涉式光纤陀螺在不同调制技术下的偏置稳定性。实验结果表明六态方波调制技术的偏置稳定性达到了9.85×10-4（°）/h，验证了六态方波提高信号解算精度的效果。     

基于模态匹配和正交抑制的微机电陀螺闭环控制技术研究

模态匹配和力反馈控制可以在不牺牲检测带宽的情况下，利用机械谐振放大特性有效提高微机电陀螺信噪比、改善陀螺性能。结合一款高Q 值对称式四质量敏感结构的陀螺表头,在陀螺动力学平均模型基础上，通过对检测模态同相分量和正交分量的控制，实现陀螺的闭环检测控制。基于静电负刚度原理，通过改变陀螺敏感结构梳齿与质量块之间的电压，构建实时正交抑制系统和精确模态匹配环节，推导出陀螺的静电刚度矩阵，完成了对正交耦合信号的实时抑制和驱动、检测模态的精确模态匹配并且实现对两环节的解耦控制。实测结果显示，陀螺频差由24 Hz缩小到0.05 Hz以内，全温条件下，陀螺的正交耦合量由3(°)/s抑制到0.01(°)/s，陀螺全温零偏稳定性由初始的11.48（°）/h改善到1.95(°)/h，验证了实时正交抑制和模态匹配等技术对提升陀螺性能的具体效果。     

基于三维原子磁强计的核磁共振陀螺仪实验优化

核磁共振陀螺仪内嵌三维原子磁强计是实现核磁共振陀螺仪小型化的一种有效途径,故介绍了一种基于三维原子磁强计的核磁共振陀螺仪.对影响三维原子磁强计性能的重要参数进行了优化,得到了较优的x轴、yy轴和z轴磁强计信号标度因子,进而实现了更灵敏的三维原子磁强计.在三维磁场闭环锁定6000 s后,测得核磁共振陀螺仪的角度随机游走和零偏稳定性分别为0.038(°)/h1/2和0.94(°)/h.     

基于电加热膜防冰设计方案的分流环表面换热特性试验研究

分流环表面换热特性对提升防冰设计效能至关重要。针对传统热气防冰方案中试验件与试验方案系统复杂、成本高昂等问题，本文提出了一种新型电加热膜防冰设计方案的分流环表面换热系数的试验方法。根据能量守恒定律，推导出分流环表面换热系数理论公式。试验研究了不同俯仰角、速度、液态水含量（Liqid water content,LWC）以及水滴中位体积直径（Median volumetric diameter, MVD）等对分流环表面换热特性的影响。试验结果表明：前缘区域换热系数随俯仰角先增大后降低，25°俯仰角是明显的转折点；相同喷雾条件下的前缘区域、下表面区域的平均换热系数约是干空气条件下的3倍；分流环前缘的换热系数明显大于上、下表面的换热系数。     

Pressure performance for a thin-walled ring and turbulent-jet orifice modeled elastic squeeze film damper

This paper explores an analytical model for Elastic Ring Squeeze Film Damper (ERSFD) with thin-walled ring and turbulent-jet orifices, and uncovers its Oil Film Pressure Performance (OFPP). Firstly, the ring deformation is addressed by using the Fourier series expansion approach and the orifice outflow rate is characterized with the Prandtl boundary layer theory. Secondly, applying finite difference scheme, the influence of elastic ring flexibility, orifice diameter, and attitude angle on the OFPP is analyzed. Finally, Outer chamber pressure was measured experimentally at different rotor speeds. The results indicate that the outer chamber pressure coats an individual load-carrying region and spreads symmetrically pertaining to the attitude angle. Its amplitude drops as the elastic ring flexibility decreases but boosts with the reduction of the orifice diameter. For inner chamber pressure, the orifice diameter effects a similar trend to the outer cavity, but exhibits more stable distribution regarding the attitude angle. Minimizing the elastic ring flexibility causes an increase in amplitude. The model is validated by the test results giving that the outer chamber pressure shifts synchronously and periodically with the variation of the attitude angle, while the pressure amplitude increases slightly at higher rotor speeds.     

Modelling and analysis of metal flowing behaviors in constraining ring rolling of tapered ring with thin wall and three high ribs

Tapered ring with thin wall and three high ribs(TRTWTHR), showing complicated geometry(wall thickness is less than 4 mm and rib height exceeds 20 mm), is extensively utilized to fabricate the critical structural parts of aerospace equipment such as spacecraft cabin, rocket body and fuel tank because of light weight and high carrying capacity. How to fabricate TRTWTHR with high performance is a critical problem that aerospace area needs to solve. In this work, constraining ring rolling(CRR) techn...     

2219 T852过渡环与T87箱筒段电子束焊接接头性能

基于贮箱用2219 T852整体过渡环与T87箱筒段的电子束环焊缝,开展了部段级电子束焊接接头常、低温力学性能测试,同时对焊接接头错缝量、断裂类型及金相组织进行了分析。研究结果表明:部段级常、低温2219 T852与T87电子束焊接接头的强度影响系数为0.63,低温状态下焊接接头的力学性能比室温状态下有所提高;错缝量与焊接接头力学性能成反比,其中对延伸率影响最为显著,低温有助于缓解错缝对焊接接头力学性能的弱化影响;电子束焊接接头组织不均匀性和结构形貌上的不连续性,特别是T852侧热影响区晶粒粗大,导致T852侧热影响区和焊缝接头根部为电子束焊缝的薄弱区域,焊接接头极易在该区域发生断裂。     

谐振式光子晶体光纤陀螺谐振腔优化技术研究

针对谐振式光子晶体光纤陀螺重要的传感部件——谐振腔的关键技术进行优化研究。首先,对谐振腔重要参数进行仿真优化,使其满足谐振腔高清晰度的要求,根据Matlab仿真结果,确定参数优化的主要原则;然后针对光子晶体光纤与普通保偏光纤熔接损耗较大的问题以及偏振噪声问题,提出一种新型光子晶体光纤耦合器,能够有效避免偏振串扰的影响。采用全矢量FDBPM对耦合器的耦合传输特性进行数值仿真,耦合特性表明,传输偏振模的耦合长度较短,在谐振式光子晶体光纤陀螺的小型化方面具有一定的优势。