火属性的聚合物复合材料欧洲杯足球竞彩
这本书是第一个应对火灾的重要课题纤维增强聚合物复合材料的行为。欧洲杯足球竞彩复合材料使用在几乎所有可能的应用程序中,尽管这些材料的高易燃性和耐火性差仍然是一个至关重要的问题。欧洲杯足球竞彩这本书涵盖了所有关键问题的复合材料在火灾的行为,包括热降解机制、热软化、火灾损伤力学和机械性能的恶化。也为复合材料防火材料覆盖,火属性的纳米复合材料,消防安全法规和标准欧洲杯足球竞彩,火测试方法、健康危害从燃烧的复合材料。这本书将感兴趣的专业人士在复合材料行业,消防安全工程师、研究人员在火属性的材料,和用户的复合材料在航空航天、船舶、民用基础设施和汽车行业。欧洲杯足球竞彩
表的内容
前言1;背景介绍:1.1;1.2火灾反应和耐火性能的复合材料;1.3复合材料和火;1.4复合材料在火灾的案例研究;1.5结论;引用;2复合材料的热分解火:2.1 Introduction2.2。有机聚合物的热分解机理;2/3的速度分解的过程和描述; 2.4 Polymers and their decomposition processes; 2.5 Fire damage to composites; 2.6 Concluding remarks; References; 3 Fire Reaction Properties of Composites: 3.1 Introduction; 3.2 Time-to-ignition; 3.3 Heat release rate; 3.4 Extinction flammability index & thermal stability index; 3.5 Mass loss ; 3.6 Smoke; 3.7 Smoke toxicity; 3.8 Limiting oxygen index; 3.9 Surface spread of flame; 3.10 Fire resistance; References; 4. Fire Modelling of Composites: 4.1 Introduction; 4.2 Thermal exposure; 4.3 Modelling material fire dynamics; 4.4 Structural modelling of fire response; References; 5 Modelling the Thermal Response of Composites in Fire: 5.1 Introduction; 5.2 Response of composites to fire; 5.3 Modelling heat conduction in composites; 5.4 Modelling the fire response of composites; 5.5 Modelling the thermal properties of composites; 5.6 Concluding remarks; References; 6. Structural Properties of Composites in Fire: 6.1 Introduction; 6.2 Laminate properties; 6.3 Measurement of elastic constants; 6.4 Mechanical properties as a function of temperature; 6.5 Modelling of properties; 6.6 Fire resistance of laminates under load; 6.7 Modelling of fire resistance of laminates under load; 6.8 Concluding remarks; References; 7. Post-Fire Properties of Composites: 7.1 Introduction; 7.2 Post-fire properties of laminates; 7.3 Modelling the post-fire properties of laminates; 7.4 Post-fire properties of sandwich composites ; 7.5 Post-fire properties of fire protected composites; 7.6 Concluding remarks; References; 8 Flame Retardant Composites: 8.1 Introduction; 8.2 The combustion cycle; 8.3 Flame retardants for composites; 8.4 Flame retardant fillers for composite; 8.5 Flame retardant organic polymers for composites; 8.6 Flame retardant inorganic polymers for composites; 8.7 Flame retardant fibres for composites; 8.8 Fire protective surface coatings; References; 9 Fire Properties of Polymer Nanocomposites: 9.1 Introduction; 9.2 Characterization of nanocomposite formation; 9.3 Evaluation of fire retardancy; 9.4 Clay modifications; 9.5 Examples of fire retardancy of polymer nanocomposites; 9.6 Mechanisms of fire retardancy in nanocomposites; 9.7 Future trends in fire retardancy of nanocomposites; References; 10 Fire Safety Regulations: 10.1 Introduction; 10.2 Fire safety regulations for rail; 10.3 Fire safety regulations for automobiles, buses and trucks; 10.4 Fire safety regulations for civil infrastructure; 10.5 Fire safety regulations for civilian aircraft; 10.6 Fire safety regulations for ships and submarines; References; 11 Fire Tests for Composites: 11.1 Introduction; 11.2 Scale of fire reaction tests; 11.3 Cone calorimeter; 11.4 Atmosphere controlled cone calorimeter; 11.5 Intermediate-scale cone calorimeter; 11.6 Ohio State University calorimeter; 11.7 Limiting oxygen index test; 11.8 Flame spread tests; 11.9 Smoke density tests; 11.10 Furnace tests; 11.11 Burn-through & jet-fire tests; 11.12 Single burning item test; 11.13 Room fire tests; 11.14 Structural integrity in fire tests; 11.15 Aircraft fire tests; 11.16 Concluding remarks; References; 12 Health Hazards of Composites in Fire: 12.1 Introduction; 12.2 Smoke toxicity test methods; 12.3 Health hazards of combustion gases; 12.4 N-gas model for smoke toxic potency; 12.5 Health hazards of fibres; 12.6 Personal protective wear against burning composite materials; 12.7 Concluding remarks; References; Subject Index
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