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Experimental Studies on Weldability of Oil Hardening Non Shrinking Die Steel
Technical Paper
2020-28-0424
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The Oil Hardening Non Shrinking (OHNS) die steel refers to a variety of carbon and alloy steels that are particularly well-suited for making tools. Though these steels are weldable, there is risk of crack formation. But, this can be avoided with convinced specifications like pre heating, proper choice of electrode etc., In the present work, OHNS die steel is welded with three different electrodes. The chosen electrodes were mild steel electrode, E312-16 chromium based electrode and E-NiCrFe-3 nickel based electrode. The OHNS steel is welded with these three electrodes and the welded specimens were examined for hot cracking tendency and mechanical properties of the joint. The hot cracking tendency was assessed by Houldcroft’s weldability test (Fishbone test). All the three electrodes proved the good results in terms of hot crack resistance and the specimen welded with E312-16 chromium based electrode provides good mechanical properties.
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Authors
Citation
Kaliyaperumal, B., Rengaraj, J., Rangasamy, R., and Ranganathan, S., "Experimental Studies on Weldability of Oil Hardening Non Shrinking Die Steel," SAE Technical Paper 2020-28-0424, 2020, https://doi.org/10.4271/2020-28-0424.Data Sets - Support Documents
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References
- Iqbal , S. , Garg , T.K. , and Singh , C.G. Methods to Improve Mechanical Properties of EN31 (High Carbon Steel) and D3 (High- Carbon, High Chromium Steel) Materials International Journal of Research in Engineering and Applied Sciences 4 6 67 92 2014
- Ramesh , G. , and Prabhu , N. Wetting Kinetics, Kinematics and Heat Transfer Characteristics of Pongamia pinnata Vegetable Oil for Industrial Heat Treatment Applied Thermal Engineering 65 433 446 2014
- Totten , G.E. , Tensi , H.M. , and Lainer , K. Performance of Vegetable Oils as a Cooling Medium in Comparison to a Standard Mineral Oil Journal of Materials Engineering Performance 8 409 416 1999
- Souza , E.C. , Fernandes , M.R. , Augustinho , S.C.M. , Canale , L.C.F. et al. Comparison of Structure and Quenching Performance of Vegetable Oils Journal of ASTM International 6 9 1 25 2009
- Sikander , S.G. Effect of Austempering and Martempering on Microstructure and Mechanical Properties of EN31 Steel International Journal of Research in Advent Technology (IJRAT) 4 4 282 285 2016
- Duhan , R. , and Nandal , R. Maximizing Tensile Strength in AISI 50110 (EN 31) Welded Joints Using GAS Metal ARC (GMAW) Welding International Journal of Engineering Sciences Paradigms and Researches 8 1 41 57 2013
- Rana , V. , and Sandhu , C.S. Investigation on Microstructural and Micro Hardness of Microwave Welded Joint of EN-31 International Journal of Latest Trends in Engineering and Technology 5 1 112 117 2015
- Duhan , R. , and Nandal , R. A Study of Microstructure and Hardness in AISI 50110 (EN31) Welded Joints Using Gas Metal Arc (GMAW) Welding International Journal of Engineering Sciences Paradigms and Researches 8 1 29 40 2013
- Singh , A. , Singh , J. , and Kumar , R. A Study of Microstructure and Hardness in En 31steel and Mild Steel Welded Joints Using TIG Welding International Journal of Engineering Science and Computing 6 10 2849 2854 2016
- Houldcroft , P.T. A Simple Cracking Test for Use with Argon Arc Welding British Welding Journal 10 10 471 475 1955