PSI - Issue 34

Ramesh Babu et al. / Procedia Structural Integrity 34 (2021) 20–25 Ramesh babu/ Structural Integrity Procedia 00 (2019) 000 – 000

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6.0 REFERENCES .

Benardos- A.N. Kornienko.,2006 , https://kpi.ua/en/benardos Car, H.B., Scott, H.C.,2004, Modern welding technology,6th Ed, ISBN 9780131130296, Pearson Education, New Jersey USA, pp.6 Carlton, J., & Carlton, J.,2007. Marine propellers and propulsion, ch 18 Propeller materials Det Norske Veritas (DNV) maritime classification society, https://www.dnv.com/about/maritime/index.html Ding, D.; Pan, Z.; van Duin, S.; Li, H.; Shen, C.,2016. Fabricating superior NiAl bronze components through wire arc additive manufacturing. Materials 2016, 9, 652 DNV RU-SHIP, Pt.2 Ch.2 Sec.11.,2021: Copper alloy castings - Castings for propellers

DNV-CG-0039 Sec 2., 2021 Calculation of marine propellers DNVGL-CG-0044., 2015 Metal coating and clad welding DNVGL-CP-0267., 2018: Approval of manufacturers-Additive manufacturing DNVGL-ST-B203., 2020: Additive manufacturing of metallic parts

DNV-RU-SHIP, Pt.2 Ch.1., 2021: General requirements for materials and fabrication DNV-RU-SHIP, Pt.2 Ch.2 Sec.14., 2021: Additively manufactured metallic materials DNV-RU-SHIP, Pt.4 Ch.5 Sec.1., 2021: Propellers ERCUNIAL: AWS A5.7.,2007: Nickel Aluminium Bronze Welding Wire Lot no 19103106-1, Washington alloy co.USA. ESAB IV world’s first welded ship hull - https://www.maritiman.se/en/fleet/repair-ship-esab-iv Eva Junghans, ramesh babu, Isak Andersen, Norbert worm .,2019, Certification of AM materials for maritime applications, DOI: 10.1002/mdp2.144, ISSN:2577-6576, John Wiley & sons Ltd, USA German Safety Standard, KTA 3201.1, Part 1, Chapter 29.,1998. Section 29 Product forms and components from ferritic steels fabricated by shape-welding. Gibson, S.,1994. Practical welding, ISBN 0-333-60957-3 Macmillan education Ltd, London, pp.47 Hyundai Heavy Industries (HHI) https://english.hhi.co.kr/biz/engine_over IACS Req. UR W24 Rev 4, July 2020. Cast copper alloy propellers International standard EN 1982:2017: Copper and copper alloys. CuAl10Fe5Ni5-C (CC333G) Sand casting International standard ISO/TR 15608:2017- Grouping system for copper and copper alloys ISO 15614-7 :2019 Specification and qualification of welding procedures for metallic materials - Overlay welding ISO/ASTM 52900:2015- Standard Terminology for Additive Manufacturing – General Principles – Terminology1,2 Karl R Million,Ratan Datta,Horst Zimermann (2005) https://radona.de/index.htm https://doi.org/10.1016/j.jnucmat.2004.10.093 Kiakidis, S.,2017. Mechanical and corrosion behaviour of 3D printed aluminium bronzes produced by wire+ arc additive manufacturing: In collaboration with RAMLAB. Klaas van dokkum-ship knowledge- 5 th edi,2008 ch 12, pp 265 Korea Evaluation Institute of Industrial Technology (KITECH) https://eng.kitech.re.kr/main/ Kou, Sindo. Welding metallurgy – 2nd edition,2002. Heat Source Efficiency pp47 MAN GHH , Maschinenfabrik Augsburg-Nürnberg AG, GHH Sterkrade, Oberhausen (MAN GHH) Manufacturing of component parts by shape welding https://radona.de/index.htm Per Lindström, 2015, Improved CWM platform for modelling welding procedures and their effects on structural behavior ; DNV GL Report No. 2015-3154; University West, Ph.D. in Thesis Production Technology 2015 No.6; pp. Per Lindström, 2002, weld repair of shell plates during seagoing operations, Oslo, OMAE2002-28583 Propeller hub as base, material certificate.,2020-Ni Al Bronze, CU3 charge no SY20-0611-02, SY Metal co Ltd Rick Rishel, Herbert Lenz , Greg Turley. , 2007, ‘NDT with the structural weld overlay program: recent field experience and lessons learned, Proceedings of the International Conference Nuclear Energy for New Europe, Portorož, Sl ovenia, Sept. 10-13, 2007; https://inis.iaea.org/collection/NCLCollectionStore/_Public/39/095/39095726.pdf?r=1&r=1 Robert Engel, Jens Heldt, and Christoph Krause, 2013, Design and analysis of a full structural weld overlay for a feedwater nozzle to safe end dissimilar metal buttweld , https://repository.lib.ncsu.edu/bitstream/handle/1840.20/33049/Pap_567_ S.I. Shakil a, C. Dharmendra b, B.S. Amirkhiz c,b, D. Verma d, M. Mohammadi b, M. Haghshenas, year, Micromechanical characterization of wire-arc additive manufactured and cast nickel aluminium bronze: Ambient and intermediate temperatures https://doi.org/10.1016/j.msea.2020.139773 Stephen Marlette, Steven L. McCraken, Christopher Lohse https://doi.org/10.1115/PVP2020-21544 SY Metal Co., Ltd. http://www.symetal.kr/eng/main/main.html W. Ya, C. Goulas, K. Hamilton, M.C.M. Hermans,G. R. B. E. Römer, and I.M. Richardson, 2017, Microstructure and mechanical properties of CuAl8Ni6 produced by Wire Arc Additive Manufacturing for marine applications, Euromat 2017 Westinghouse Electric Company LLC, 2018, Structural Weld Overlay Design, Qualification and Application, https://www.westinghousenuclear.com

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