1;Contents;62;1 Market Overview;142.1;1.1 Examples of Applications from Various Industry Sectors;172.1.1;1.1.1 Aerospace;172.1.2;1.1.2 Precision Engineering;202.1.3;1.1.3 Automotive Engineering;222.1.4;1.1.4 General Mechanical Engineering;272.1.5;1.1.5 Design of Technical Equipment;282.1.6;1.1.6 Construction Industry;312.2;1.2 Forecast;353;2 Structure and Properties;443.1;2.1 Chemical Structure (Constitution);443.1.1;2.1.1 Degree of Polymerization - Relative Molecular Weight;473.1.2;2.1.2 Homopolymerization and Copolymerization;513.2;2.2 Intermolecular Binding Energies (Secondary Valence Bonds);533.2.1;2.2.1 Absorption of Water by Polyamides;543.3;2.3 Spatial Arrangement of Atoms and Groups of Atoms in Molecules (Configuration);603.3.1;2.3.1 Tacticity;613.3.2;2.3.2 Branching;613.3.3;2.3.3 Cross-Linking;623.4;2.4 Architecture of Polymer Systems;633.4.1;2.4.1 Homogeneous and Heterogeneous Polymer Mixtures;633.4.2;2.4.2 Plasticization;643.4.3;2.4.3 Fillers and Reinforcement;643.5;2.5 Morphology (Supermolecular Structures);673.5.1;2.5.1 Amorphous Microstructure;673.5.2;2.5.2 Crystalline Microstructure;683.5.3;2.5.3 Anisotropy;733.6;2.6 Thermomechanical Ranges;773.6.1;2.6.1 Thermoplastics with Amorphous Structure;773.6.2;2.6.2 Thermoplastics with Semicrystalline Structure;793.6.3;2.6.3 Elastomers;803.6.4;2.6.4 Thermosets;804;3 Brief Description of the Properties of Generic Polymeric Materials;844.1;3.1 Thermoplastics;844.1.1;3.1.1 Polymer Blends;934.1.2;3.1.2 Functional Polymers;964.2;3.2 Elastomers;1014.3;3.3 Thermosets;1034.4;3.4 Fibrous Reinforcements;1074.4.1;3.4.1 Glass Fibers;1084.4.2;3.4.2 Carbon Fibers;1104.4.3;3.4.3 Aramid Fibers;1104.4.4;3.4.4 Metal Fibers, Whiskers, and Ceramic Fibers;1105;4 Physical Properties - Characteristic Values - Test Methods and Procedures;1145.1;4.1 Deformation Behavior under Uniaxial Dynamic Tensile Stress (Stress-Strain Experiments);1145.1.1;4.1.1 Molecular Deformation and Fracture Mechanisms;1145.1.2;4.1.2 Characteristic Stress-Strain Curves;1165.1.3;4.1.3 Determination of Stress-Strain Diagrams and Characteristic Properties of Materials;1175.1.4;4.1.4 Effects of Temperature, Time, and Humidity on Stress-Strain Curves;1205.1.5;4.1.5 Mathematical Description of Stress-Strain Curves;1225.2;4.2 Deformation Behavior under Uniaxial, Long-Term, Static Tensile Loads (Tensile Creep Testing);1245.2.1;4.2.1 Mathematical Description of Creep Curves;1265.3;4.3 Toughness and Impact Resistance;1285.3.1;4.3.1 Determination of Tensile Stress-Strain Toughness;1295.3.2;4.3.2 Determination of Toughness by Flexural Impact Test;1295.3.3;4.3.3 Penetration or Dart Drop Impact Test;1325.4;4.4 Behavior under Cyclic Loads;1335.4.1;4.4.1 Determination of Characteristic Features of Fatigue;1355.5;4.5 Poisson's Ratio;1385.6;4.6 Thermal Properties;1405.6.1;4.6.1 Thermal Expansion;1405.6.2;4.6.2 Dimensional Stability;1425.6.3;4.6.3 Heat Aging;1455.6.4;4.6.4 Summary Analysis of the Effects of Temperature;1495.7;4.7 Tribological Properties;1495.7.1;4.7.1 Fundamentals;1515.7.2;4.7.2 Friction and Wear in Mated Polymer and Steel Surfaces;1585.7.3;4.7.3 Friction and Wear in Mated Pairs of Polymeric Materials;1695.7.4;4.7.5 Effect of Additives on Friction and Wear Properties;1715.7.5;4.7.6 Stick-Slip;1785.7.6;4.7.7 Jet Erosion;1816;5 Calculations for Structures under Mechanical Load - Examples of Geometrically Simple Structural Parts under Static Loads;1886.1;5.1 Specific Materials and Processing Problems;1886.1.1;5.1.1 Deformation Behavior under Uniaxial Dynamic Tensile Stress;1886.2;5.2 Determination of Strength;1906.2.1;5.2.1 Basic Procedure for Structural Part Design;1906.2.2;5.2.2 Uniaxial State of Stress;1956.2.3;5.2.3 Multiaxial State of Stress;1976.3;5.3 Calculation of Strains and Deformations;2036.3.1;5.3.1 Linear Elastic Behavior;2036.3.2;5.3.2 Nonlinear Elastic Behavior;2046.4;5.4 Analysis of Stress and Deformation in Structures under Fle