Multi-objective optimization design of radar absorbing sandwich structure

By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a multi-objective optimization procedure for the radar absorbing sandwich structure （RASS） with a cellular core is proposed. The optimization models consid...

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Published in	Applied mathematics and mechanics Vol. 31; no. 3; pp. 339 - 348
Main Author	陈明继裴永茂方岱宁
Format	Journal Article
Language	English
Published	Heidelberg Shanghai University Press 01.03.2010 Applied Mechanics Laboratory AML, Department of Engineering Mechanics, Tsinghua University, Beijing 100084, P. R. China%State Key Laboratory for Turbulence and Complex Systems LTCS, College of Engineering, Peking University, Beijing 100871, P. R. China%Applied Mechanics Laboratory AML, Department of Engineering Mechanics, Tsinghua University, Beijing 100084, P. R. China State Key Laboratory for Turbulence and Complex Systems LTCS, College of Enginee
Subjects	Absorption Applications of Mathematics Classical Mechanics Fluid- and Aerodynamics Mathematical analysis Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Optimization Partial Differential Equations Radar Sandwich structures 优化过程传递矩阵法吸波性能多目标优化设计无量纲参数目标函数蜂窝夹层结构 radar absorbing failure mode TB34 92F05 sandwich structure multi-objective optimization lightweight radar ab-sorbing
Online Access	Get full text
ISSN	0253-4827 1573-2754
DOI	10.1007/s10483-010-0307-z

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Abstract	By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a multi-objective optimization procedure for the radar absorbing sandwich structure （RASS） with a cellular core is proposed. The optimization models considered are one-side clamped sandwich panels with four kinds of cores subject to uniformly distributed loads. The average specular reflectivity calculated with the transfer matrix method and the periodic moment method is utilized to characterize the radar absorbing performance, while the mechanical constraints include the facesheet yielding, core shearing, and facesheet wrinkling. The optimization analysis indicates that the sandwich structure with a two-dimensional （2D） composite lattice core filled with ultra-lightweight sponge may be a better candidate of lightweight RASS than those with cellular foam or hexagonal honeycomb cores. The 2D Kagome lattice is found to outperform the square lattice with respect to radar absorbing.
AbstractList	By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a multi-objective optimization procedure for the radar absorbing sandwich structure （RASS） with a cellular core is proposed. The optimization models considered are one-side clamped sandwich panels with four kinds of cores subject to uniformly distributed loads. The average specular reflectivity calculated with the transfer matrix method and the periodic moment method is utilized to characterize the radar absorbing performance, while the mechanical constraints include the facesheet yielding, core shearing, and facesheet wrinkling. The optimization analysis indicates that the sandwich structure with a two-dimensional （2D） composite lattice core filled with ultra-lightweight sponge may be a better candidate of lightweight RASS than those with cellular foam or hexagonal honeycomb cores. The 2D Kagome lattice is found to outperform the square lattice with respect to radar absorbing. TB34; By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a multi-objective op-timization procedure for the radar absorbing sandwich structure (RASS) with a cellular core is proposed. The optimization models considered are one-side clamped sandwich panels with four kinds of cores subject to uniformly distributed loads. The average spec-ular reflectivity calculated with the transfer matrix method and the periodic moment method is utilized to characterize the radar absorbing performance, while the mechanical constraints include the facesheet yielding, core shearing, and facesheet wrinkling. The optimization analysis indicates that the sandwich structure with a two-dimensional (2D)composite lattice core filled with ultra-lightweight sponge may be a better candidate of lightweight RASS than those with cellular foam or hexagonal honeycomb cores. The 2D Kagome lattice is found to outperform the square lattice with respect to radar absorbing. By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a multi-objective optimization procedure for the radar absorbing sandwich structure (RASS) with a cellular core is proposed. The optimization models considered are one-side clamped sandwich panels with four kinds of cores subject to uniformly distributed loads. The average specular reflectivity calculated with the transfer matrix method and the periodic moment method is utilized to characterize the radar absorbing performance, while the mechanical constraints include the facesheet yielding, core shearing, and facesheet wrinkling. The optimization analysis indicates that the sandwich structure with a two-dimensional (2D) composite lattice core filled with ultra-lightweight sponge may be a better candidate of lightweight RASS than those with cellular foam or hexagonal honeycomb cores. The 2D Kagome lattice is found to outperform the square lattice with respect to radar absorbing.
Author	陈明继裴永茂方岱宁
AuthorAffiliation	Applied Mechanics Laboratory （AML）, Department of Engineering Mechanics, Tsinghua University, Beijing 100084, P. R. China State Key Laboratory for Xhrbulence and Complex Systems （LTCS）, College of Engineering, Peking University, Beijing 100871, P. R. China
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Cites_doi	10.1121/1.427094 10.1017/CBO9781139878326 10.1016/j.matdes.2004.09.009 10.1049/el:19941023 10.1016/j.compositesb.2003.08.011 10.1016/j.compscitech.2007.03.002 10.1016/j.carbon.2004.03.017 10.1016/j.compscitech.2008.08.017 10.1016/j.jmps.2007.04.007 10.1080/15376490590928589 10.1002/mop.21727 10.1016/j.pmatsci.2005.03.001 10.1007/978-1-4613-0473-9 10.1109/TAP.2004.841320 10.1016/j.compstruct.2005.07.021 10.1016/j.ijsolstr.2007.10.005 10.1016/j.commatsci.2008.12.011 10.1016/j.compscitech.2005.05.034 10.1016/j.commatsci.2006.05.024 10.1016/S0022-5096(01)00024-2 10.1016/j.compstruct.2005.11.036
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References_xml	– reference: ChenX. B.Handbook of Polymer-Matrix Composites2004BeijingChemical Industry Press – reference: ZhangY. H.QiuX. M.FangD. N.Mechanical properties of two novel planar lattice structuresInternational Journal of Solids and Structures200845375137681169.7448610.1016/j.ijsolstr.2007.10.005 – reference: OhJ. H.OhK. S.KimC. G.HongC. S.Design of radar absorbing structures using glass/epoxy composite containing carbon black in X-band frequency rangesComposites Part B: Engineering2004351495610.1016/j.compositesb.2003.08.011 – reference: ChenM.PeiY.FangD.Computational method for radar absorbing composite lattice gridsComputational Materials Science200946359159410.1016/j.commatsci.2008.12.011 – reference: ChambersB.TennantA.Design of wide-band Jaumann radar absorbers with optimum oblique-incidence performanceElectronics Letters199430181530153210.1049/el:19941023 – reference: YuanH.XiaoG.CaoM. S.A novel method of computation and optimization for multilayered radar absorbing coatings using open source softwareMaterials and Design2006271455210.1016/j.matdes.2004.09.009 – reference: LuT. J.HutchinsonJ. W.EvansA. G.Optimal design of a flexural actuatorJournal of the Mechanics and Physics of Solids2001499207120931017.7404610.1016/S0022-5096(01)00024-2 – reference: LeeS. E.KangJ. H.KimC. G.Fabrication and design of multi-layered radar absorbing structures of MWNT-filled glass/epoxy plain-weave compositesComposite Structures200676439740510.1016/j.compstruct.2005.11.036 – reference: YangJ.ShenZ. M.HaoZ. B.Microwave characteristics of sandwich composites with mesophase pitch carbon foams as coreCarbon2004428–91882188510.1016/j.carbon.2004.03.017 – reference: LuT. J.ValdevitL.EvansA. G.Active cooling by metallic sandwich structures with periodic coresProgress in Materials Science200550778981510.1016/j.pmatsci.2005.03.001 – reference: ZhangH. T.ZhangJ. S.ZhangH. Y.Computation of radar absorbing silicon carbide foams and their silica matrix compositesComputational Materials Science200738485786410.1016/j.commatsci.2006.05.024 – reference: LiuT.DengZ. C.LuT. J.Bi-functional optimization of actively cooled, pressurized hollow sandwich cylinders with prismatic coresJournal of the Mechanics and Physics of Solids20075512256526021159.7439510.1016/j.jmps.2007.04.007 – reference: KongJ. A.Electromagnetic Wave Theory1990New YorkWiley – reference: GoudosS. K.SahalosJ. N.Microwave absorber optimal design using multi-objective particle swarm optimizationMicrowave and Optical Technology Letters20064881553155810.1002/mop.21727 – reference: GibsonL. J.AshbyM. F.Cellular Solids: Structure and Properties1997New YorkCambridge University Press – reference: ChinW. S.LeeD. G.Development of the composite RAS (radar absorbing structure) for the X-band frequency rangeComposite Structures200777445746510.1016/j.compstruct.2005.07.021 – reference: ParkK. Y.LeeS. E.KimC. 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Snippet	By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a... TB34; By introducing a dimensionless parameter to couple the two objectives, weight and radar absorbing performance, into a single objective function, a...
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SubjectTerms	Absorption Applications of Mathematics Classical Mechanics Fluid- and Aerodynamics Mathematical analysis Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Optimization Partial Differential Equations Radar Sandwich structures 优化过程传递矩阵法吸波性能多目标优化设计无量纲参数目标函数蜂窝夹层结构
Title	Multi-objective optimization design of radar absorbing sandwich structure
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