Hybrid Anisotropic Materials for Structural Aviation Parts

ISBN: 9781439836804 出版年：2016 页码：338 Golfman, Yosif CRC Press

Nanocomposite Automation Process Ceramic Technology in Space Programs Fractographic Model Prediction Deformations and Fatigue Strength Fiber Draw Automation Control Spray Deposition of Aerogels as a Thermal Insulation for the Space Shuttle Fuel Tanks Self-Sealing Fuel Tank Technology Development Deposition of the Thermal Insulation Fuel Tank of the Space Shuttle Vapor-Phase Deposition of the Thermoprotective Layers for the Space Shuttle Impregnation Process Impregnation Process for Prepregs, Braided Composites, and Low-Cost Hybrid Polymer and Carbon Fibers High-Strength, Low-Cost Polymer Fibers Hybrid with Carbon Fibers in Continuous Molding/Pultrusion Processes Strength Criteria and Dynamic Stability Develop a Validated Design and Life Prediction Methodology for Polymeric Matrix Composite History of Design and Life Prediction Methodology for PMC Strength Criteria for Anisotropic Materials Theoretical Prediction of the Forces and Stress Components of Braided Composites Nonlinear Correlation between Modulus of Elasticity and Strength Dynamic Stability Aspects for Hybrid Structural Elements for Civil Aircraft Dynamic Aspects of the Lattice Structures Behavior in the Manufacturing of Carbon-Epoxy Composites Dynamic Stability of the Lattice Structures Manufacturing of Carbon Fiber-Epoxy Composites, Including the Influence of Damping Properties Interlaminar Shear Stress Analysis Interlaminar Shear Stress Analysis of Composites: Sandwich/Carbon Fiber/Epoxy Structures Interlaminar Shear Strength between Thermoplastics Rapid Prototyping or Pultruded Profiles and Skin Carbon/Fiber/Epoxy Layers Developing a Low-Cost Method to Reduce Delamination Resistance in Multilayer Protection Systems Fatigue Strength, Stress, and Vibration Analysis Fatigue Strength Prediction for Aerospace Components Using Reinforced Fiberglass or Graphite/Epoxy Effect of Thermoelasticity for Composite Turbine Disk Strength Analysis of Turbine Engine Blades Manufactured from Carbon/Carbon Composites Stress and Vibration Analysis of Composite Propeller Blades and Helicopter Rotors NDE Methods Control Properties Ultrasonic Nondestructive Method to Determine the Modulus of Elasticity of Turbine Blades Nondestructive Evaluation of Parts for Hovercraft and Ekranoplans Dynamic Local Mechanical and Thermal Strength Prediction Using NDE for Material Parameters Evaluation of Aerospace Components Nondestructive Evaluation of Lightweight Nanoscale Structural Parts for Space Satellite Shuttle Noncontact Measurement of Delaminating Cracks Predicts the Failure in Fiber Reinforced Polymers Coating Process Protective Aviation Parts Developing a Non-thermal-Based Anti-Icing/De-icing of Rotor Blade Leading Edges Helicopter Rotor Blade Coatings Development Offers Superior Erosion Resistance and Deicing Capabilities Thermoplastic Reinforced Carbon for Large Ground-Based Radomes