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醉染图书复合材料夹芯结构(英文版)9787030662200
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ContentsPreface1 Introduction 11.1 Application of FRP coites in civil infrastructure 11.2 Research status of coite sandwich structure 21.2.1 Static behavior 21.2.2 Fatigue behavior 31.. Creep behavior 41.2.4 Energy absorption behavior 6References 62 Flexural properties of foam core sandwich structures 152.1 Flexural behavior of hybrid coite beams with a bamboo layer and lattice ribs 152.1.1 Material characterization 162.1.2 Experimental programme 222.1.3 Analysis and discussion 292.1.4 Summary 322.2 Nonlinear flexural properties of lattice-web reinforced foam core sandwich panels 322.2.1 Experimental program 342.2.2 Experimental results and discussion 372.. Finite element analysis 422.2.4 Parametric studies 462.2.5 Summary 49References 503 Static properties of wood core sandwich structures 523.1 Flexural properties of sandwich panels with web reinforced wood core 523.1.1 Experimental program 533.1.2 Experimental results and discussion 573.1.3 Analytical modeling 703.1.4 FE modeling 743.1.5 Summary 793.2 Flexural properties of innovative GFRP-bamboo-wood sandwich beams 803.2.1 Experimental program 813.2.2 Experimental results of flexural behavior 853.. Analytic and finite element modeling 943.2.4 Design optimization 1013.2.5 Summary 1053.3 Compressive properties of wood-filled GFRP square columns 1063.3.1 Experimental programme 1073.3.2 Experimental results and discussions 1113.3.3 Analysis and comparison of the experimental results 1153.3.4 Summary 121References 1224 Fatigue properties of coite sandwich structures 1254.1 Fatigue properties of GFRP-balsa sandwich beams 1254.1.1 Materials and specimens 1254.1.2 Static bending experimental study 1284.1.3 Fatigue bending experimental study 1304.1.4 Proposition and verification of the fatigue damage model 1384.1.5 Summary 1484.2 Fatigue properties of lattice-web reinforced GFRP-balsa sandwich beams 1494.2.1 Experimental programs 1494.2.2 Experimental results 1544.. Fatigue cumulative damage model 1664.2.4 Fatigue damage and life prediction 1724.2.5 Summary 173References 1745 Creep properties of coite sandwich beams 1765.1 Flexural creep behavior and life prediction of GFRP-balsa sandwich beams 1765.1.1 Materials and specimens 1765.1.2 Static three-point bending tests 1795.1.3 Flexure creep tests 1815.1.4 Fitting and prediction 1935.1.5 Summary 1985.2 Flexural creep behavior of web reinforced GFRP-balsa sandwich beams:Experimental investigation and modeling 1995.2.1 Experimental section 2005.2.2 Experimental results 2075.. Discussion 2135.2.4 Summary 224References 2256 Energy absorption properties of coite sandwich structures 2276.1 Energy absorption of foam-filled lattice coite cylinders under lateral compressive loading 2276.1.1 Materials and methods 2276.1.2 Experimental results and discussion 26.1.3 Finite element modelling 2446.1.4 Parametric study 2486.1.5 Summary 2516.2 The energy absorption behaviour of novel foam-filled sandwich coite panels reinforced by trapezoi lttced webs 2526.2.1 Experimental program 2526.2.2 Experimental results and discussion 2556.. Finite element modelling 2626.2.4 Parametric study 2716.2.5 Finite element analysis of coite anti-collision device for Wuhu Yangtze River Bridge 2736.2.6 Summary 277References 2777 Engineering application of coite sandwich structures 2797.1 Frame assemblies in port regions 2797.2 FRP coite bumper systems for bridge piers 2827.2.1 Fixed coite bumper system 2827.2.2 Floating coite bumper system 2847.. Large-scale floating coite bumper system 2857.3 Floating FRP structures for supporting solar panels 2887.4 Pavemenmtsfr emergency 2897.5 Building floor 2907.6 Summary 291References 291
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《复合材料夹芯结构 (英文版)》梳理、总结了复合材料夹芯结构领域的部分科研内容,《复合材料夹芯结构 (英文版)》共七章,主要内容包括:复合材料夹芯结构的基本概念,泡沫、木材夹芯复合材料结构的受力能与设计方法,复合材料夹芯结构的工程应用。较系统地介绍了复合材料夹芯结构梁、板、柱等基本构件的静力、疲劳、蠕变能和压缩吸能机理,并选取典型工程案例,对复合材料夹芯结构体系的应用现状作了详细介绍。《复合材料夹芯结构 (英文版)》结构条理清晰,内容兼具前沿与实。
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