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颜料对低发射涂料红外辐射特性的影响 总被引:5,自引:0,他引:5
本文详细论述了应用于红外陷身涂层的金属颜料、着色颜料的研究现状,并对这些颜料的红外特性进行了讨论。讨论认为:金属颜料发射率一般较低,在金属颜料中,粒径50цm的漂浮型铝粉具有较好的红外性能;在着色颜料中,大多数着色颜料具有很高的发射率,不适宜热红外伪装涂料使用;掺杂半导体颜料制成的涂料性能优良,但目前还处于研制阶段,是今后颜料发展的一个方向。 相似文献
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随着红外探测技术的飞速发展,武器装备被发现即被摧毁已成事实,因此通过提升武器装备的红外隐身性能来提高其生存与突防能力具有重要意义。红外低发射率涂层技术利用表面涂层技术在目标表面涂覆低发射率涂层,从而降低目标表面发射率,是提高其红外隐身性能的一种简单、有效的方法。飞行器速度的不断提升要求红外低发射率涂层在高温环境中仍具有优异的低发射率特性与高温稳定性,本文重点介绍了高温红外低发射率涂层研究现状,分析了现有涂层技术的特点及其高温应用前景。 相似文献
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红外低辐射率涂料的研究进展与发展趋势 总被引:4,自引:0,他引:4
本文简述了红外隐身的原理,红外低辐射率涂料的组成,概括了红外隐身涂料中填料,粘合剂及添加剂的选择要求,介绍了涂料的涂层技术。并在此基础上对低辐射率涂料的发展趋势进行了展望。 相似文献
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综述了近年来国内外高分子材料在热红外伪装技术中应用的最新研究进展,并从结构与性能之间相互关系探讨了其应用机理,最后对高分子材料在热红外伪装技术中的发展趋势和应用前景进行了展望。 相似文献
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Xiaochang Xing Lingling Wu Xiaoyong Tian Dichen Li 《Advanced Engineering Materials》2023,25(16):2300389
Objects can be identified based on their distinctive scattering signatures in multiple physical areas such as optics, electromagnetics, and thermotics. To ensure comprehensive stealth and camouflage capabilities, antisense devices with multiphysical field coupling are highly desired. Herein, a multifunctional antisense metadevice that achieves stealth in the microwave band while also generating multiple camouflage images from the original object's position during the heat conduction process is proposed and demonstrated. The metadevice combines both antimicrowave detection and camouflage infrared imaging capabilities, resulting in broadband electromagnetic stealth and thermal camouflage effect. Experimental and simulation results confirm the metadevice's ability to achieve these multifunctional capabilities in temperature-dependent cases. The development of such multifunctional devices that span physical fields provides new avenues for the design and preparation of multifunctional structures. 相似文献
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通过熔融纺丝制备了一种新型的红外/雷达多功能隐身纤维.本研究主要分析了纤维的热性能、力学性能、电性能和填料种类、含量、样品厚度和形态结构对纤维吸波性能的影响以及纤维的红隐身性能.研究表明随着粉体含量的增加纤维的力学性能、结晶度、熔融温度降低.随金属粉体含量的增加,纤维的质量比电阻率先降后升.复合粉体比单一粉体有较好的雷达吸收,金属粉体含量的增加有利于吸波性能的提高.皮层含有15%金属粉体的隐身纤维具有较好的红外隐身性能.隐身纤维大于10db的频宽可达2.39GHz,红外发射率可达0.62.本实验制备的隐身纤维材料有望成为一种极具发展潜力和工业价值的多功能隐身材料. 相似文献
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The temperature dependence of the thermal expansion characteristics of the AS21 magnesium alloy, AS21–25 vol% Saffil fiber composite and the Mg-10 vol% Saffil fiber composite has been measured in the temperature range from 20 to 380°C. The expansion characteristics were influenced by the residual and thermal strains. The residual strain was removed within the first thermal cycle. The relative elongation of the tensile pre-deformed AS21–25 vol% Saffil fiber composite is lower than that for the sample without deformation and for the composite pre-deformed in compression. The anisotropy of the thermal expansion is demonstrated on the Mg-10 vol% Saffil fiber composite. The coefficient of thermal expansion (CTE) in the transverse direction (TD) (the planes of the short Saffil fibers are laid perpendicular to the axis of the sample) is higher than the CTE in the longitudinal direction (LD) (the planes of the short Saffil fibers are laid parallel to the axis of the sample). The anisotropy and the thermal strain influence the thermal diffusivity for AS21 composites investigated at temperatures between 20 and 380°C.Paper presented at the Seventeenth European Conference on Thermophysical Properties, September 5-8, 2005, Bratislava, Slovak Republic. 相似文献
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目的研究不同色彩处理方式对大片刨花表面相对自由基浓度的影响,及不同迷彩组合色对板材力学性能的影响。方法通过对大片刨花进行煮沸染色,采用电子自旋共振波谱仪对各类处理方式刨花检测其相对自由基浓度,然后根据不同迷彩色方案进行压制板材,采用万能力学电子实验仪检测其力学性能,分析不同迷彩刨花板的相对自由基浓度与力学性能的关系。结果刨花的不同处理方式(煮沸与否、染色与否、染料种类、染料浓度等)对其相对自由基浓度影响方差分析F值为119.4;5类不同色刨花板的力学性能MOR方差值为9.38;丛林迷彩板材力学强度最高,弹性模量为5883.47 MPa,结合强度为0.68 MPa,静曲强度为52.37 MPa。结论各迷彩色酸性染料染色处理对刨花表面的相对自由基浓度有显著影响,有益于板材的胶合性能;4种常见迷彩配色方案中,板材的力学性能也有所提升,尤其是丛林迷彩板材具备较优的力学性能。 相似文献
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Thermal wave interferometry (TWI) is used as a means for measuring the thermal properties of plasma-sprayed coatings. The solution of the inverse problem is influenced by the magnitude of the signal-to-noise ratio and the amount of data available. This is investigated using a sensitivity analysis. The critical factors that determine the accuracy and the limitations of the technique are discussed. Numerical and experimental thermal wave tests confirm the range of applicability and the accuracy of TWI for measuring thermal properties. 相似文献