Comparative Study of Machining Technology Selection to Manufacture Large-Size Components of Offshore Constructions

1. Celano G., Costa A., Fichera S. and Santangelo B.: Pallet configuration for approaching mapping requirements on devices, Chapters 6 in: Design of flexible production systems: methodologies and tools, Tolio T (Ed.), Springer -Verlag 2009.Search in Google Scholar

2. Choi J.P., Min B.K. and Lee S.J.: Reduction of machining errors of a three-axis machine tool by on-machine measurement and error compensation system. Journal of Materials Processing Technology, Vol. 155-156 (2004), pp. 2056-2064.Search in Google Scholar

3. Deja M. and Siemiatkowski, M.S.: Feature-based generation of machining process plans for optimised parts manufacture. Journal of Intelligent Manufacturing, Vol. 24 (2013), pp. 831-846.Search in Google Scholar

4. Gologlu, C.: Machine capability and fixturing constraintsimposed automatic machining set-ups generation, Journal of Materials Processing Technology, Vol. 148 (2004), pp. 83-92.Search in Google Scholar

5. Groover M.P.: Fundamentals of modern manufacturing, Materials, processes and systems, J. Wiley & Sons Inc., 2010.Search in Google Scholar

6. Haddag B., Nouari M. and Moufki A.: Some cases of machining large-scale parts: characterization and modelling of heavy turning, deep drilling and broaching, AIP Conference Proc. 1716, AIP Publishing 2016, pp. 1-9.Search in Google Scholar

7. Jang S.H, Choi Y.H., Kim S.T., An H.S., Choi H.B. and Hong J.S.: Development of core technologies of multi-tasking machine tools for machining highly precision large parts. Journal of the Korean Soc. for Precision Engineering, Vol. 29, No.2 (2012), pp. 129-138.Search in Google Scholar

8. Kaliński K.J. and Galewski M.: Chatter vibration surveillance by the optimal-linear spindle speed control. Mechanical Systems and Signal processing, Vol. 25 (2011), pp. 383-399.Search in Google Scholar

9. Lizarralde R., Azkarate A. and Zelaieta O.: New developments in lathes and turning centres, Chapter 7 in: Machine tools for high performance machining, Lopez de Lacalle L.N and Lamikiz A. (Eds), Springer-Verlag 2009.Search in Google Scholar

10. Mares M., Horejs O. and Hornych J.: Advanced thermal error compensation of a flor type machining centre allowing for the influence of interchangeable spindle heads, Journal of Machine Engineering, Vol. 15, No. 3 (2015), pp. 19-32.Search in Google Scholar

11. Matuszewski A. Musiał J. and Styp-Rekowski M.: Design and technological issues related to large parts of the modular structure (in Polish), Technologia i Automatyzacja Monażu, No. 2 (2012), pp. 28-30.Search in Google Scholar

12. Neugebauer R., Wabner M., Rentzsch H. and Ihlenfeldt S.: Structure principles of energy efficient machine tools. CIRP Journal of Manufacturing Science and Technology, Vol. 4 (2011), pp. 136-147.10.1016/j.cirpj.2011.06.017Search in Google Scholar

13. Onozuka H., Utsumi K., Kato T., Takahashi H. and Obikawa T.: Optimal design of a damped arbor for heavy duty machining of giant parts. Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol. 7, No. 2 (2013), pp. 171-186.Search in Google Scholar

14. Ratchev T.M.: Concurrent process and facility prototyping for formation of virtual manufacturing cells. Integrated Manufacturing Systems, Vol. 12, No.4 (2010), pp. 306-315.Search in Google Scholar

15. Siemiątkowski M. and Przybylski W.: Modelling and simulation analysis of process alternatives in the cellular manufacturing of axially symmetric parts. Intl. Journal of Advanced Manufacturing Technology, Vol. 32, Nos.5-6 (2007), pp. 516-530.Search in Google Scholar

16. Simpson B. and Dicken P.J.: Integration of machining and inspection in aerospace manufacturing, IOP Conf. Series: Materials Science and Engineering, Vol. 26 (2011), pp. 1-4.Search in Google Scholar

17. Uriarte L., Zatarain M., Axinte D., Yague-Fabra J., Ihlenfeldt S., Eguia J. and Olarra A.: Machine tools for large parts. CIRP Annals-Manufacturing Technology, Vol. 62 (2013), pp. 731-750.10.1016/j.cirp.2013.05.009Search in Google Scholar

18. Waiyagan K. and Bohez E.L.J.: Intelligent feature based process planning for five-axis multi-turn parts. Computers in Industry, Vol. 60 (2009), pp. 296-316.Search in Google Scholar

19. Yao S., Han X., Yang Y., Rong Y., Huang S., Yen D. and Zhang G.: Computer aided manufacturing planning for mass customization: part 2, automated setup planning. Intl. Journal of Advanced Manufacturing Technology, Vol. 32 (2007), pp. 205-217.Search in Google Scholar

20. Zhang, H-C. and Lin, E.: A hybrid-graph approach foe automated setup planning in CAPP. Robotics and Computer- Integrated Manufacturing, Vol. 15 (1999), pp. 89-100.Search in Google Scholar

21. http://www.gospodarkamorska.pl/wydarzenia/wciagarkaz-energomontazu-polnoc-gdynia-dla-norweskiegoprzemyslu-offshore.html, accessed on February 16th 2017.Search in Google Scholar

22. http://en.nglmachining.com/park-maszynowy.html, accessed on February 16th 2017. Search in Google Scholar