It is known that composites have insufficient transversal strength and rigidity, and low longitudinal shear modulus, compression and shear strength. This book describes methods to avoid these disadvantages by hybridization and spiral reinforcement of composites at the micro-level during the production stage. Mathematical models and design methods have been developed for various composites. The authors discuss the technology of spiral reinforcement and fillers, the structures and properties of spirally reinforced composites, binders, the manufacture of such composites, and the application of…mehr
It is known that composites have insufficient transversal strength and rigidity, and low longitudinal shear modulus, compression and shear strength. This book describes methods to avoid these disadvantages by hybridization and spiral reinforcement of composites at the micro-level during the production stage. Mathematical models and design methods have been developed for various composites. The authors discuss the technology of spiral reinforcement and fillers, the structures and properties of spirally reinforced composites, binders, the manufacture of such composites, and the application of new materials and constructions. This informative text will be of interest to researchers, teachers and students in academia and also to industrial scientists and engineers involved in the development and application of new materials.
Garry E. Freger, East Ukrainian University, Lugansk, Ukraine / Vladimir N. Kestelman, KVN International, King of Prussia, PA, USA / Dmitry G. Freger, East Ukrainian University, Lugansk, Ukraine
Inhaltsangabe
1 Hybridization and Spatial Reinforcement of Composite Materials.- 2 Major Principles of Developing Material Structures with Hybrid Spirally Reinforced Filler.- 3 Stress-Strain State in Composites Based on Hybrid Spirally Reinforced Fillers Under Transverse Loading.- 4 Stress-Strain State of the Composite Based on Spirally Reinforced Filler Under Loading in the Direction of Reinforcement.- 5 Description of Production Technology and Physico-Mechanical Properties of Composites Based on Spirally Reinforced Fillers.- 6 Design of Composite Spirally Reinforced Rods.- 7 The Effect of Structural and Geometrical Parameters on Rod Properties.- 8 Optimal Design of Hybrid Spirally Reinforced Rods.- 9 Application of Composites Based on Spirally Reinforced Fillers and the Spiral Reinforcement Procedure in Design Units.- General Conclusions and Recommendations.- Addendum.- References.
1 Hybridization and Spatial Reinforcement of Composite Materials.- 2 Major Principles of Developing Material Structures with Hybrid Spirally Reinforced Filler.- 3 Stress-Strain State in Composites Based on Hybrid Spirally Reinforced Fillers Under Transverse Loading.- 4 Stress-Strain State of the Composite Based on Spirally Reinforced Filler Under Loading in the Direction of Reinforcement.- 5 Description of Production Technology and Physico-Mechanical Properties of Composites Based on Spirally Reinforced Fillers.- 6 Design of Composite Spirally Reinforced Rods.- 7 The Effect of Structural and Geometrical Parameters on Rod Properties.- 8 Optimal Design of Hybrid Spirally Reinforced Rods.- 9 Application of Composites Based on Spirally Reinforced Fillers and the Spiral Reinforcement Procedure in Design Units.- General Conclusions and Recommendations.- Addendum.- References.
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