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Adaptive, tolerant and efficient composite structures
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036aXA-DE
037beng
077a366920987 Buchausg. u.d.T.: ‡Adaptive, tolerant and efficient composite structures
087q978-3-642-29189-0
100 Wiedemann, Martin
104bSinapius, Michael
331 Adaptive, tolerant and efficient composite structures
410 Berlin, Heidelberg
412 Springer
425 2013
425a2013
433 Online-Ressource (XVI, 462 p. 332 illus., 87 illus. in color, digital)
451bResearch Topics in Aerospace
501 Description based upon print version of record
517 Adaptive, Tolerant andEfficient CompositeStructures; Contents; 1 Introduction; Abstract; References; Part I Multifunctional Materials; 2 Nano-Micro-Macro; Abstract; 2.1…Looking at Composite Materials at Different Scales; 2.2…Improving Fiber Composite Materials with Nanoscaled Particles; 2.3…Smart Material Systems; 2.4…Integration of Smart Materials on a Macroscopic Level; 2.5…Integration of Smart Materials on a Micro- and Nanoscopic Level; 2.6…Summary and Conclusion; References; 3 Piezocomposite Transducers for Adaptive Structures; Abstract; 3.1…Piezocomposite Technology. 4.5…Conclusion: Nanoparticles' Mode of Action in CFRPAcknowledgments; References; 5 Advanced Flame Protection of CFRP Through Nanotechnology; Abstract; 5.1…Protection Against Fire; 5.1.1 Flame Retardants for Fiber Composites; 5.1.2 Fire Tests and Supplemental Characterizations; 5.2…Materials and Methods; 5.2.1 Nanoparticles and Resins; 5.2.2 Dispersion Process and Material Characterisation; 5.3…Results and Discussion; 5.3.1 Thermal Characterization of Very Small Scale Test Specimens; 5.3.2 Comparison to Standard Fire Test Methods; References. 6 Fundamental Characterization of Epoxy-Silica Nanocomposites Used for the Manufacturing of Fiber Reinforced CompositesAbstract; 6.1…Introduction; 6.2…Materials and Preparation; 6.3…Characterization of the Nanocomposites; 6.3.1 Analysis of the Nanoparticle Distribution; 6.3.2 Rheological Properties; 6.3.3 Thermal Characterization by DMA and DSC; 6.3.4 Quantitation of Resin Shrinkage; 6.3.5 Determination of Coefficients of Thermal Expansion; 6.3.6 Static Mechanical Characterization; 6.3.7 Identification of Failure Mechanisms by Analysing the Fracture Surface Topology; 6.4…Conclusion. AcknowledgmentsReferences; 7 Carbon Nanotube Actuation; Abstract; 7.1…Introduction; 7.2…The Actuation Phenomenon of CNT; 7.3…An Analytical Model for the Actuation Mechanism; 7.4…Experimental Setup; 7.5…Parameterization; 7.6…Electrical System; 7.7…Mechanical System; 7.8…Coupling Mechanism; 7.9…Validation of the Model; 7.10…Solid Electrolytes for CNT Based Actuators; 7.11…Specimen Processing and Experimental Setup; 7.12…Initial Test Results with Solid Electrolytes for CNA; 7.13…Conclusion; Acknowledgment; References; 8 Piezoceramic Honeycomb Actuators; Abstract. 8.1…Active Control of Mechanical Impedances. 3.2…State of the Art for Piezocomposite Transducers for Adaptive Structures3.3…A Modular Manufacturing Concept for Piezocomposites; 3.4…Multilayer Piezocomposites; 3.4.1 Manufacturing of Multilayer Piezocomposites; 3.4.2 Free Strain of Multilayer Piezocomposites; 3.5…Summary and Conclusion; References; 4 Nanoscaled Boehmites' Modes of Action in a Polymer and its Carbon Fiber Reinforced Plastic; Abstract; 4.1…Challenges of Future Carbon Fiber Reinforced Plastics; 4.2…Resin-Particle Interactions; 4.3…Particle-Polymer Interphases; 4.4…Selected Properties and the Nanocomposites' Particle-Network
527 Buchausg. u.d.T.: ‡Adaptive, tolerant and efficient composite structures
540aISBN 978-3-642-29190-6
700 |TRP
700 |TTDS
700 |TEC002000
700b|620.118
700b|629.1
700c|TL787-4050.22
700g1271885891 ZO 8200
700g1498507026 ZM 7020
750 Composite structures are most efficient in performance and production cost when combined with smart materials making them adaptable to changing operational conditions. The specific production processes of composites offer the possibility to integrate more functions thus making the structure more valuable. Active functions can be realized by smart materials, e.g. morphing, active vibration control, active structure acoustic control or structure health monitoring. The foundation is a sound understanding of materials, design methods, design principles, production technologies and adaptronics. Along the complete process chain this disciplines together deliver advanced lightweight solutions for applications ranging from mechanical engineering to vehicles, airframe and finally space structures. This book provides the scientific foundations as well as inspiring new ideas for engineers working in the field of composite lightweight structures.
902s 209145439 Verbundwerkstoff
902s 217098932 Funktionswerkstoff
902s 210491981 Adaptives System
902s 20901105X Leichtbau
012 373365101
081 Wiedemann, Martin: Adaptive, tolerant and efficient composite structures
100 Springer E-Book
125aElektronischer Volltext - Campuslizenz
655e$uhttp://dx.doi.org/10.1007/978-3-642-29190-6
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