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The electronic pdf versions of the documents found through http://www.dnv.com/ are the officially binding versions. Copyright Det Norske Veritas.
Table of contents for DNV-OS-C501 Composite Components |
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| Sec.1: General |
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| A: Objectives |
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| B: Application - Scope |
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| C: How to use the standard |
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| D: Normative References |
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| Sec.2: Design Philosophy and Design Principles |
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| A: General |
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| B: Safety philosophy |
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| C: Design format |
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| D: Design approach |
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| E: Requirements to documentation |
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| Sec.3: Design Input |
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| A: Introduction |
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| B: Product specifications |
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| C: Division of the product or structure into components, parts and details |
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| D: Phases |
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| E: Safety and service classes |
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| F: Functional requirements |
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| G: Failure modes |
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| H: Exposure from the surroundings |
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| I: Loads |
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| J: Environment |
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| K: Combination of load effects and environment |
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| Sec.4: Materials - Laminates |
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| A: General |
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| B: Static properties |
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| C: Properties under long term static and cyclic and high rate loads |
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| D: Other properties |
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| E: Influence of the environment on properties |
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| F: Influence of process parameters |
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| G: Properties under fire |
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| H: Qualification of material properties |
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| I: Properties with damaged or nonlinearly deformed matrix |
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| Sec.5: Materials - Sandwich Structures |
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| A: General |
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| B: Static properties |
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| C: Properties under long term static and cyclic loads |
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| D: Other properties |
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| E: Influence of the environment on properties |
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| F: Influence of process parameters and core density |
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| G: Properties under fire |
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| H: Qualification of material properties |
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| Sec.6: Failure Mechanisms & Design Criteria |
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| A: Mechanisms of failure |
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| B: Design criteria - general approach |
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| C: Fibre failure |
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| D: Matrix cracking |
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| E: Delamination |
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| F: Yielding |
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| G: Ultimate failure of orthotropic homogenous materials |
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| H: Buckling |
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| I: Displacements |
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| J: Long term static loads |
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| K: Long term cyclic loads |
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| L: Impact |
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| M: Wear |
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| N: High / low temperature / fire |
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| O: Resistance to explosive decompression |
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| P: Special aspects related to sandwich structures |
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| Q: Chemical decomposition / galvanic corrosion |
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| R: Requirements for other design criteria |
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| Sec.7: Joints and Interfaces |
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| A: General |
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| B: Joints |
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| C: Specific joints |
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| D: Interfaces |
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| Sec.8: Safety-, Model- and System Factors |
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| A: Overview of the various factors used in the standard |
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| B: Partial load effect and resistance factors |
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| C: Model factors |
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| D: System effect factor |
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| E: Factors for static and dynamic fatigue analysis |
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| Sec.9: Structural Analysis |
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| A: General |
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| B: Linear and non-linear analysis of monolithic structures |
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| C: Connection between analysis methods and failure criteria |
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| D: Analytical methods |
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| E: Finite element analysis |
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| F: Dynamic response analysis |
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| G: Impact response |
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| H: Thermal stresses |
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| I: Swelling effects |
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| J: Analysis of sandwich structures |
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| K: Buckling |
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| L: Partial load-model factor |
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| Sec.10: Component Testing |
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| A: General |
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| B: Qualification based on tests on full scale components |
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| C: Verification of analysis by testing and updating |
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| D: Testing components with multiple failure mechanisms |
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| E: Updating material parameters in the analysis based on component testing |
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| Sec.11: Fabrication |
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| A: Introduction |
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| B: Link of process parameters to production machine parameters |
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| C: Processing steps |
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| D: Quality assurance and quality control |
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| E: Component testing |
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| F: Installation |
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| G: Safety, health and environment |
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| Sec.12: Operation, Maintenance, Reassessment, Repair |
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| A: General |
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| B: Inspection |
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| C: Reassessment |
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| D: Repair |
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| E: Maintenance |
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| F: Retirement |
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| Sec.13: Definitions, Abbreviations & Figures |
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| A: Definitions |
| B: Symbols and abbreviations |
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| C: Figures |
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| Sec.14: Calculation Example: Two Pressure Vessels |
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| A: Objective |
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| B: Design input |
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| C: Failure mechanisms |
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| D: Material properties |
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| E: Analysis of gas vessel with liner |
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| F: Non-linear analysis of vessel for water without liner |
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| G: Linear analysis of vessel for water without liner |
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| App.A: Check-lists for Design Input |
| A: Phases |
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| B: Functional requirements and failure modes |
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| C: LOADS |
| D: Environments |
| E: Distribution types of basic variables |
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| App.B: Lay-up and laminate specification |
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| A: Unique definition of a laminate |
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| App.C: Test methods for laminates |
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| A: General |
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| B: Static tests for laminates |
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| C: Tests to obtain properties under long term static and cyclic loads |
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| D: Tests to obtain the fibre fraction |
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| E: Tests on tubular specimens |
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| F: Evaluation of stress versus strain curves |
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| App.D: Test methods for sandwich materials |
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| A: General |
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| B: Core materials - static tests |
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| C: Adhesive materials - static tests |
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| D: Core skin interface properties |
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| E: Tests for other properties |
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| App.E: Tables of Safety Factors |
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| A: Partial safety factors |
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| App.F: Example for representative data Stitch-bonded unidirectional (UD) plies - E glass polyester |
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| A: General |
| B: Definition of material |
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| C: Quasi static properties in air (QSA) |
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| D: Long term properties in air |
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| App.G: Example for representative data Unidirectional carbon tape AS4 12k |
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| App.H: Example for Representative Data: Unidirectional Carbon Tapes made of TPW tape with "5631" fibres |
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| App.I: Example for representative data Unidirectional carbon tape TPW 0434 Prepreg |
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