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Experiment/simulation correlation-based methodology for metallic ballistic protection solutions
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作者 Yohan Cosquer Patrice Longère +1 位作者 Olivier Pantalé Claude Gailhac 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第11期24-38,共15页
A methodology is developed based on the coupling of a finite element code with an optimisation module for the design of land vehicle armouring composed of lightweight aluminium alloy and high strength steel plate.Foll... A methodology is developed based on the coupling of a finite element code with an optimisation module for the design of land vehicle armouring composed of lightweight aluminium alloy and high strength steel plate.Following an experiment/simulation correlation,a numerical model has been built and calibrated considering monolithic plates and then verified considering a bi-metal protection against tungsten carbide projectile mimicking the core of a 7.62×51 AP8 ammunition.In addition,a method is proposed to obtain the v_(res)-v_(i) curve for the full 7.62×51 AP8 bullet from the v_(res)-v_(i) curve obtained from the core only. 展开更多
关键词 Impact Terminal ballistics Ballistic limit MARS380 Aluminium alloy 7.62×51 AP8
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光纤光栅传感器与机械结构预处理胶接方法 被引量:3
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作者 曾捷 张钰珏 +4 位作者 郭晓华 李钰 龚晓静 李丹婷 梁大开 《南京航空航天大学学报》 EI CAS CSCD 北大核心 2017年第1期105-109,共5页
结构应力应变高精度测量对于实现直升机动静态强度监测与评估具有至关重要的意义。由于光纤光栅传感器具有柔韧性好、芯径细、抗电磁干扰能力强以及便于实现分布式监测等显著优点,使得其在航空航天器结构强度监测领域受到广泛重视。为... 结构应力应变高精度测量对于实现直升机动静态强度监测与评估具有至关重要的意义。由于光纤光栅传感器具有柔韧性好、芯径细、抗电磁干扰能力强以及便于实现分布式监测等显著优点,使得其在航空航天器结构强度监测领域受到广泛重视。为提升直升机应变监测精度与灵敏度,本文研究了光纤光栅传感器应变感知原理和精度影响因素,构建了基于光纤光栅传感器的板结构应变监测系统。在此基础上,提出剥离光栅栅区涂覆层、施加预应力及其双层胶接等预处理集成方法,实现对板结构光纤光栅传感器应变测量精度的有效提升。 展开更多
关键词 光纤光栅 预处理 胶接 应变
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植入碳纤维蜂窝夹芯结构的光纤光栅热载荷响应光谱研究 被引量:1
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作者 马驰 曾捷 +4 位作者 张景川 龚晓静 张益昕 冯翔宇 周林 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2017年第9期2927-2932,共6页
针对航天领域复合材料结构在空间服役环境的热响应监测需求,研究了一种热载荷作用下基于光纤Bragg光栅(FBG)反射光谱特征分析的碳纤维蜂窝夹芯结构监测方法。将光纤Bragg光栅传感器分别植入碳纤维蜂窝夹芯结构的不同铺层,通过监测不同... 针对航天领域复合材料结构在空间服役环境的热响应监测需求,研究了一种热载荷作用下基于光纤Bragg光栅(FBG)反射光谱特征分析的碳纤维蜂窝夹芯结构监测方法。将光纤Bragg光栅传感器分别植入碳纤维蜂窝夹芯结构的不同铺层,通过监测不同热载荷下各铺层位置的光纤光栅反射光谱,得到碳纤维蜂窝夹芯结构相关铺层位置热应变特征。研究表明,碳纤维蜂窝夹芯结构不同材料铺层的热应变特征存在一定差异。植入外蒙皮表面与玻璃布之间的光纤光栅反射光谱随着温度升高,中心波长向长波方向漂移,且波形未出现明显改变。埋植于外蒙皮第二、三层碳纤维织物预浸料之间的光栅反射光谱随着温度降低逐渐出现旁瓣、多峰等啁啾效应,其主峰与右侧次峰中心波长均向短波方向逐渐漂移,主峰峰值幅度变化较小,温度灵敏度约为5.56×10^(-3) dBm·℃^(-1),而右侧次峰幅度显著增大,温度灵敏度约为40.32×10^(-3)dBm·℃^(-1);埋植于内蒙皮和蜂窝芯子之间的光栅反射光谱随着温度降低,其半波峰带宽逐渐增大,变化率约为3.19pm·℃^(-1),且出现显著多峰趋势,这是由于层间热应力分布不均匀所形成。在-70^+60℃温度范围,各植入层热应变均随温度升高而增大,且变化趋势相接近,而在+60^+120℃温度范围内,各植入层热应变变化趋势呈现显著差异。这些特性能够为后继空间环境复合材料航天器结构状态在轨监测提供有益帮助。 展开更多
关键词 碳纤维蜂窝夹芯结构 光纤光栅 反射光谱 热应变
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空间伸展结构变形与振动分布式光纤监测研究 被引量:13
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作者 何凯 曾捷 +2 位作者 林秋红 龚晓静 康健 《仪器仪表学报》 EI CAS CSCD 北大核心 2018年第2期56-65,共10页
空间伸展结构是一种最基本的可展开折叠单元,广泛应用于大型展开天线、太阳帆板以及空间机械臂等航天领域,针对此类结构服役状态的智能辨识对于目前开展高轨深空探测研究具有重要意义。为此,提出一种基于准分布式光纤传感器的空间伸展... 空间伸展结构是一种最基本的可展开折叠单元,广泛应用于大型展开天线、太阳帆板以及空间机械臂等航天领域,针对此类结构服役状态的智能辨识对于目前开展高轨深空探测研究具有重要意义。为此,提出一种基于准分布式光纤传感器的空间伸展结构变形与振动实时监测技术。借助MSC.Patran/Nastran有限元分析方法,数值模拟得到碳纤维复合材料柔性空间伸展结构在不同载荷作用下的应变、位移响应规律以及振动模态特征。分别研究了基于曲率和弧长信息曲线重构的结构变形反演算法,光纤光栅中心波长偏移量与振动特征关系解析模型,计算得到空间伸展结构沿展开方向不同位置的坐标信息。在此基础上,通过在柔性复合材料伸展结构展向布设离散光纤光栅传感器,实时采集应变分布与变化信息,进而推导相应位置曲率特征,实现不同加载模式下的伸展结构形态重构,变形反演相对误差约为2.5%。此外,借助准分布式光纤传感器不仅可以得到伸展结构对应的变形实时响应曲线,同时还能够获取其前三阶固有模态和振型特征,所测频率与仿真结果吻合度较好,平均误差约为0.67%。研究结果表明,所提方法具有非视觉测量、实时性好以及多种功能复用等优点,能够为未来及时准确获取空间伸展结构姿态,实现空间形态自适应调节与在轨振动主动控制提供有力保障。 展开更多
关键词 柔性复合材料伸展结构 光纤传感器 形态反演算法 变形监测 振动监测
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基于反射光谱特征辨识的光纤气压与温度集成监测方法 被引量:1
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作者 刘晓颖 曾捷 +4 位作者 郭晓华 龚晓静 李宁溪 李彤韡 王计刚 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2017年第9期2838-2843,共6页
针对飞行器机载环境多参量综合测试需求,研究了一种基于反射光谱特征辨识的光纤布拉格光栅(FBG)气压与温度集成监测方法,给出了基于膜片式结构的双参量传感机理及其理论模型。采用基于耦合模理论的OptiGrating软件,得到不同气压与温度... 针对飞行器机载环境多参量综合测试需求,研究了一种基于反射光谱特征辨识的光纤布拉格光栅(FBG)气压与温度集成监测方法,给出了基于膜片式结构的双参量传感机理及其理论模型。采用基于耦合模理论的OptiGrating软件,得到不同气压与温度条件下光纤布拉格光栅传感器仿真反射光谱。在此基础上,借助弹塑性和恢复性能优良的平膜片感压机构,构建了膜片式双光纤气压/温度集成监测模型。研究表明,恒温条件下应变传感光纤光栅反射光谱随气压增加而逐渐向短波方向偏移,其中心波长灵敏度约为0.803 0nm·MPa^(-1),且反射谱主峰及其旁瓣峰值均随气压变化呈现良好线性关系;当气压恒定而温度变化时,处于仅感温不受力状态的温度传感光纤光栅反射光谱中心波长灵敏度约为9.39pm·℃^(-1);当气压与温度交叉变化时,能够实现对变温条件下的微小气压变化实时监测。传感光纤光栅受非均匀应变效应反射光谱存在一定啁啾现象,其反射光谱旁瓣峰值波长随环境温度、气压变化均会发生偏移,具有良好线性关系,且在不同气压下反射光谱对应的同一阶数旁瓣峰值幅度相等。该研究能够为航空航天器系统多物理参量在线综合测试提供有益帮助。 展开更多
关键词 反射光谱辨识 光纤光栅 气压与温度监测 旁瓣 感压膜片
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Comparison of Two Nondestructive Tests in Carbon/Epoxy Composites
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作者 Marie-Laetitia Pastorl Christian Garnier Christophe Pescay 《材料科学与工程(中英文版)》 2010年第10期14-19,共6页
关键词 碳/环氧复合材料 无损检测 缺陷检测 红外应用 超声波 非破坏性 红外热像 红外线
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Piezoelectric resonant ice protection systems–Part1/2:Prediction of power requirement for de-icing a NACA 0024 leading edge 被引量:1
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作者 Valerian PALANQUE Jason POTHIN +1 位作者 Vale′rie POMMIER-BUDINGER Marc BUDINGER 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2024年第3期92-103,共12页
This paper proposes a numerical method to analyze the ice protection capability and predict the power requirements of a piezoelectric resonant de-icing system.The method is based on a coupled electro-mechanical finite... This paper proposes a numerical method to analyze the ice protection capability and predict the power requirements of a piezoelectric resonant de-icing system.The method is based on a coupled electro-mechanical finite element analysis which enables the fast computation of the modes of resonance of interest to de-ice curved surfaces and the estimation of the input voltage and current required for a given configuration(defined by its mode,actuator location,ice deposit,etc.).Eventually,the electric power to be supplied can be also assessed.The method is applied to a NACA 0024 leading edge equipped with piezoelectric actuators.First,two extension modes are analyzed and compared with respect to their efficiency and power requirements.Then,tests are carried out in an icing tunnel to verify the effectiveness of the piezoelectric ice protection system and the predictions of the maximal required power.The system allows de-icing the leading edge in less than 2 s for a glaze ice deposit. 展开更多
关键词 Ice protection system PIEZOELECTRIC Resonance mode Ice fracture Leading edge de-icing
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Piezoelectric resonant ice protection systems-Part 2/2:Evaluation of benefits at aircraft level
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作者 Valerian PALANQUE Thomas PLANES +2 位作者 Pommier-Budinger VALERIE Budinger MARC Delbecq SCOTT 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2024年第6期50-63,共14页
Piezoelectric resonant de-icing systems are attracting great interest.This paper aims to assess the implementation of these systems at the aircraft level.The article begins with the model to compute the power requirem... Piezoelectric resonant de-icing systems are attracting great interest.This paper aims to assess the implementation of these systems at the aircraft level.The article begins with the model to compute the power requirement of a piezoelectric resonant de-icing system sized from the prototype detailed in Part 1/2 of this article.Then the mass,drag,and fuel consumption of this system and the subcomponents needed for its implementation are assessed.The features of a piezoelectric resonant de-icing system are finally computed for aircraft similar to Airbus A320 aircraft and aircraft of different categories(Boeing 787,ATR 72 and TBM 900)and compared with the existing thermal and mechanical ice protection systems.A sensitivity analysis of the main key sizing parameters of the piezoelectric de-icing system is also performed to identify the main axes of improvement for this technology.The study shows the potential of such ice protection systems.In particular,for the realistic input parameters chosen in this work,the electro-mechanical solution can provide a 54% reduction in terms of mass and a 92% reduction in terms of power consumption for an A320 aircraft architecture,leading to a 74% decrease in the associated fuel consumption compared to the actual air bleed system. 展开更多
关键词 Ice protection system DE-ICING PIEZOELECTRIC Electro-mechanical system Power Fuel consumption
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Modelling and simulation of flight control electromechanical actuators with special focus on model architecting, multidisciplinary effects and power flows 被引量:13
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作者 Fu Jian Jean-Charles Maré Fu Yongling 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2017年第1期47-65,共19页
In the aerospace field, electromechanical actuators are increasingly being implemented in place of conventional hydraulic actuators. For safety-critical embedded actuation applications like flight controls, the use of... In the aerospace field, electromechanical actuators are increasingly being implemented in place of conventional hydraulic actuators. For safety-critical embedded actuation applications like flight controls, the use of electromechanical actuators introduces specific issues related to thermal balance, reflected inertia, parasitic motion due to compliance and response to failure. Unfortunately, the physical effects governing the actuator behaviour are multidisciplinary, coupled and nonlinear. Although numerous multi-domain and system-level simulation packages are now available on the market, these effects are rarely addressed as a whole because of a lack of scientific approaches for model architecting, multi-purpose incremental modelling and judicious model implementation. In this publication, virtual prototyping of electromechanical actuators is addressed using the Bond-Graph formalism. New approaches are proposed to enable incremental modelling,thermal balance analysis, response to free-run or jamming faults, impact of compliance on parasitic motion, and influence of temperature. A special focus is placed on friction and compliance of the mechanical transmission with fault injection and temperature dependence. Aileron actuation is used to highlight the proposals for control design, energy consumption and thermal analysis, power network pollution analysis and fault response. 展开更多
关键词 Bond Graph Electro-hydrostatic actuator Electromechanical actuator More electric aircraft MODELLING Power-by-wire Power loss SIMULATION
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Multi-level virtual prototyping of electromechanical actuation system for more electric aircraft 被引量:13
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作者 Jian FU Jean-Charles MARE +1 位作者 Liming YU Yongling FU 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2018年第5期892-913,共22页
Electromechanical actuators(EMAs) are becoming increasingly attractive in the field of more electric aircraft because of their outstanding benefits, which include reduced fuel burn and maintenance cost, enhanced sys... Electromechanical actuators(EMAs) are becoming increasingly attractive in the field of more electric aircraft because of their outstanding benefits, which include reduced fuel burn and maintenance cost, enhanced system flexibility, and improved management of fault detection and isolation. However, electromechanical actuation raises specific issues when being used for safetycritical aerospace applications like flight controls: huge reflected inertia to load, jamming-type failure, and increase of backlash with service due to wear and local dissipation of heat losses for thermal balance. This study proposes an incremental approach for virtual prototyping of EMAs. It is driven by a model-based system engineering process in order to enable simulation-aided design.Best practices supported by Bond graph formalism are suggested to develop a model's structure efficiently and to make the model ready for use(or extension) by addressing the above mentioned issues. Physical effects are progressively introduced, and the realism of lumped-parameter models is increased step-by-step. In particular, multi-level component models are architected to ensure continuity between engineering activities. The models are implemented in the AMESim simulation environment, and simulation responses are given to illustrate how they can be used for preliminary sizing, control design, thermal balance verification, and faults to failure analysis. The proposed best practices intend to provide engineers with fast, reusable, and efficient means to assess performance virtually and enhance maturity, performance, and robustness. 展开更多
关键词 Bond graph Electromechanical actuator Flight control Model-based system engi-neering More electric aircraft Power-by-wire
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Review on signal-by-wire and power-by-wire actuation for more electric aircraft 被引量:25
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作者 Jean-Charles MAR Jian FU 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2017年第3期857-870,共14页
The huge and rapid progress in electric drives offers new opportunities to improve the performances of aircraft at all levels:fuel burn,environmental footprint,safety,integration and production,serviceability,and mai... The huge and rapid progress in electric drives offers new opportunities to improve the performances of aircraft at all levels:fuel burn,environmental footprint,safety,integration and production,serviceability,and maintainability.Actuation for safety-critical applications like flight-controls,landing gears,and even engines is one of the major consumers of non-propulsive power.Conventional actuation with centralized hydraulic power generation and distribution and control of power by throttling has been well established for decades,but offers a limited potential of evolution.In this context,electric drives become more and more attractive to remove the natural drawbacks of conventional actuation and to offer new opportunities for improving performance.This paper takes the stock,at both the signal and power levels,of the evolution of actuation for safety-critical applications in aerospace.It focuses on the recent advances and the remaining challenges to be taken toward full electrical actuation for commercial and military aircraft,helicopters,and launchers.It logically starts by emphasizing the specificity of safety-critical actuation for aerospace.The following section addresses in details the evolution of aerospace actuation from mechanically-signaled and hydraulically-supplied to all electric,with special emphasis on research and development programs and on solutions entered into service.Finally,the last section reviews the challenges to be taken to generalize the use of all-electric actuators for future aircraft programs. 展开更多
关键词 Actuator Aerospace Electrohydrostatic Electromechanical Hydraulic More electric aircraft Power-by-wire Signal-by-wire
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