Analysis for Design of Fiber Reinforced Plastic Vessels
Introduction \ General \ Types of FRP Vessels \ FRP Vessels in the Chemical Processing Industry \ Scope of This Book\ \ Properties of Constituent Layers \ General \ Mechanical Properties of Constituent Layers \ Components of Modulus and Compliance of Constituent Layers \ Effect of Operating Conditions\ \ Laminate Theory \ General \ Laminate Code \ Rules of Mixture \ One-Dimensional Laminate Theory \ Two-Dimensional Laminate Theory \ Failure Criteria \ Conclusion \ \...
Search in google:
Introduction General Types of FRP Vessels FRP Vessels in the Chemical Processing Industry Scope of This Book Properties of Constituent Layers General Mechanical Properties of Constituent Layers Components of Modulus and Compliance of Constituent Layers Effect of Operating Conditions Laminate Theory General Laminate Code Rules of Mixture One-Dimensional Laminate Theory Two-Dimensional Laminate Theory Failure Criteria Conclusion Analysis for Internal Pressure Loading Introduction Analysis Using Shell Equations Simplified Analysis Experimental Verification of Laminate Theory Failure of Composite Tubes under Internal Pressure Stability of FRP Vessels Introduction Vessels under Vacuum Loading or External Pressure Vessels and Tanks Subjected to Axial Loads Conclusion Thermal Stress Analysis Introduction Determination of Thermal Expansion Coefficient for Individual Layers Off-Axis Coefficient of Thermal Expansion Stress-Strain Relations Including Thermal Strains Thermal Residual Strains and Stresses Resulting from Thermal Change for General Laminates Thermal Stresses in Composite Cylinders Conclusion Effect of Discontinuities Introduction Branch Openings and Reinforcements Horizontal Vessels on Saddle Supports"
Introduction General Types of FRP Vessels FRP Vessels in the Chemical Processing Industry Scope of This Book Properties of Constituent Layers General Mechanical Properties of Constituent Layers Components of Modulus and Compliance of Constituent Layers Effect of Operating Conditions Laminate Theory General Laminate Code Rules of Mixture One-Dimensional Laminate Theory Two-Dimensional Laminate Theory Failure Criteria Conclusion Analysis for Internal Pressure Loading Introduction Analysis Using Shell Equations Simplified Analysis Experimental Verification of Laminate Theory Failure of Composite Tubes under Internal Pressure Stability of FRP Vessels Introduction Vessels under Vacuum Loading or External Pressure Vessels and Tanks Subjected to Axial Loads Conclusion Thermal Stress Analysis Introduction Determination of Thermal Expansion Coefficient for Individual Layers Off-Axis Coefficient of Thermal Expansion Stress-Strain Relations Including Thermal Strains Thermal Residual Strains and Stresses Resulting from Thermal Change for General Laminates Thermal Stresses in Composite Cylinders Conclusion Effect of Discontinuities Introduction Branch Openings and Reinforcements Horizontal Vessels on Saddle SupportsBook and software: $459.95
