References
- 1. Ahn K., Chun M., Han S., Jang K., Suh Y. (2014): Dropped Object Analysis Using Non-linear Dynamic FE Analysis. 33rd International Conference on Ocean, Offshore and Arctic Engineering, Volume 4A, Structures, Safety and Reliability, San Francisco, California, USA.
- 2. Alsos H.S., Amdahl J. (2009): On the Resistance to Penetration of Stiffened Plates, Part I - Experiments. International Journal of Impact Engineering, Vol. 36, No. 6, 799-807.
- 3. Bergstad A. (2014): Assessment of Hull Response Due to Impact from Falling Object, MSc thesis, Department of Marine Technology, Norwegian University of Science and Technology, Norway.
- 4. DNV GL-RP-C204 (2018): Design Against Accidental Loads. Recommended Practice, Høvik, Det Norske Veritas, Norway.
- 5. DNV GL-RP-C208 (2018): Determination of Structural Capacity by Non-linear FE Analysis Methods. Recommended Practice, Høvik, Det Norske Veritas, Norway.
- 6. DNV GL-OS-A101 (2019): Safety Principles and Arrangements. Høvik, Det Norske Veritas, Norway.
- 7. DNV GL-OS-C102 (2019): Structural Design of Offshore Ship-Shaped Units. Høvik, Det Norske Veritas, Norway.
- 8. DNV GL Rules for Classification. (2019): Hull Structural Design Ships with Length 100 Meters and Above. Part 3, Chapter 1.
- 9. Ehlers S. (2010): Strain and Stress Relation until Fracture for Finite Element Simulations of a Thin Circular Plate. Thin-Walled Structures, Vol. 48, No. 1, 1-8.
- 10. Ingve N. (2014): Dropped Object Protection Analyses, Master’s thesis, University of Stavanger, Norway.
- 11. Jung B.G., Jo S.W., Paik J.K., Seo J.K., Kim Y.H. (2016): Experimental and Numerical Studies on Non-linear Impact Response of Deck Structures Subjected to Dropped Objects. 35th International Conference on Ocean, Offshore and Arctic Engineering, Vol. 3, Structures, Safety and Reliability, Busan, South Korea.
- 12. Moan T. (2009): Development of Accidental Collapse Limit State Criteria for Offshore Structures. Structural Safety, Vol. 31, 124-135.
- 13. NORSOK Standard (2004): Design of Steel Structures, N-004, Rev. 2.
- 14. Sun L.P., Ma G, Nie C.Y., Wang Z.H. (2011): The Simulation of Dropped Objects on the Offshore Structure. Advanced Materials Research, Vol. 339, 553-556.
- 15. Paik J.K. (2007): Practical Techniques for Finite Element Modeling to Simulate Structural Crashworthiness in Ship Collisions and Grounding (Part I: Theory). Ships and Offshore Structures, Vol. 2, No. 1, pp. 69-80.
- 16. Zhang S. (1999): The Mechanics of Ship Collision, PhD Thesis, Lyngby, Technical University of Denmark.