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Physics of Metals and Metallography
Published in: Physics of Metals and Metallography 5/2021

Open Access 01-05-2021 | STRENGTH AND PLASTICITY

Comparative Study on H20 Steel Billets: Additive Manufacturing vs. Powder Metallurgy

Authors: S. Nasar, L. J. Baruch, S. J. Vijay, C. K. Srinivas, J. Jose, V. V. Popov

Published in: Physics of Metals and Metallography | Issue 5/2021

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Abstract

Additive Manufacturing is one of the revolutionizing technologies of modern manufacturing industry. This technology has time and again proved that any material can be fabricated by it if the right parameters are employed. Other technologies such as powder metallurgy are also dominating the manufacturing industries owing to its potential flexibility in manufacturing complex shapes. In this work, an attempt has been made to fabricate cylindrical components through both the techniques, and their properties are compared. A study on metallurgical properties revealed that both provide similar microstructures, but powder metallurgy yielded better mechanical properties. It has been also observed that the tribological properties are better in additive manufactured components. The reason for this behavior has been studied and discussed.
previous article Effect of the Repetitive Corrugation and Straightening on the Microstructure and Mechanical Properties of a 3003 Aluminum Alloy

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Literature
1.
ASTM International, F2792-12a – Standard Terminology for Additive Manufacturing Technologies (2013).
2.
V. V. Jr. Popov, G. Muller-Kamskii, A. Kovalevsky, G. Dzhenzhera, E. Strokin, A. Kolomiets, and J. Ramon, “Design and 3D-printing of titanium bone implants: brief review of approach and clinical cases,” Biomed. Eng. Lett. 8, No. 4, 337–344 (2018).CrossRef
3.
A. Muthuchamy, A. Raja Annamalai, M. Karthikeyan, T. Abhijeet, N. Nidhi, and A. K. Dinesh, “Microstructural evolution of iron based alloys produced by spark plasma sintering method,” Phys. Met. Metallogr. 119, No. 7, 678–684 (2018).CrossRef
4.
A. Katz-Demyanetz, V. V. Jr. Popov, A. Kovalevsky, D. Safranchik, and A. Koptyug, “Powder-bed additive manufacturing for aerospace application: Techniques, metallic and metal/ceramic composite materials and trends,” Manuf. Rev. 6, 5 (2019).
5.
A. Koptyug, M. Bäckström, and L.-E. Rännar, “3D-printing: A future ‘magic wand’ for global manufacturing how can we benefit from it today for sports and health care?,” in icSPORTS 2017 – Proc. of the 5th Int. Congress (2017), pp. 5–16.
6.
N. Guo and M. C. Leu, “Additive manufacturing: Technology, applications and research needs,” Front. Mech. Eng. 8, No. 3, 215–243 (2013).CrossRef
7.
P. Sarkar and A. Chakrabarti, “Assessing design creativity,” Des. Stud. 32, No. 4, 348–383 (2011).CrossRef
8.
A. Koptyug, V. V. Jr. Popov, C. A. B. Vega, E. Jiménez-Piqué, A. Katz-Demyanetz, L.-E. Rännar, and M. Bäckström, “Compositionally-tailored steel-based materials manufactured by electron beam melting using blended pre-alloyed powders,” Mater. Sci. Eng., A 771, 138587 (2020).CrossRef
9.
V. V. Popov Jr. and A. Fleisher, “Hybrid additive manufacturing of steels and alloys,” Manuf. Rev. 7. Special Issue: The emerging materials and processing technologies, 6 (2020).
10.
A. Bhattacharya, A. Bagdi, and D. Das, “Influence of microstructure on high-stress abrasive wear behaviour of a microalloyed steel,” Perspect. Sci. 8, 614–617 (2016).CrossRef
11.
C. S. Ramesh, C. K. Srinivas, and K. Srinivas, “Friction and wear behaviour of rapid prototype parts by direct metal laser sintering,” Tribol. – Mater., Surf. Interf. 1, No. 2, 73–79 (2007).CrossRef
12.
R. Keshavamurthy, R. Padmanav, A. R. Vinod, C. K. Srinivasa, and P. V. Shashikumar, “Optimization of rocess parameters for direct metal deposition of H13 tool steel,” Adv. Mater. Manuf. Charact. 3, No. 2, 515–519 (2013).
13.
N. V. Kazantseva, A. G. Merkushev, D. A. Shishkin, I. V. Ezhov, D. I. Davidov, M. B. Rigmant, P. B. Terent’ev, and L. Yu. Egorova, “Magnetic properties and structure of products from 1.4540 stainless steel manufactured by 3D printing,” Phys. Met. Metallogr. 120, No. 13, 1270–1275 (2019).CrossRef
14.
P. Krakhmalev, G. Fredriksson, M. Thuvander, M. Asberg, A. M. Vilardell, C. Oikonomou, G. Maistro, A. Medvedeva, and N. Kazantseva, “Influence of heat treatment under hot isostatic pressing (HIP) on microstructure of intermetallic-reinforced tool steel manufactured by laser powder bed fusion,” Mater. Sci. Eng., A 772, 138699 (2020).CrossRef
15.
H. Khorsand, S. M. Habibi, H. Yoozbashizadea, K. Janghorban, S. M. S. Reihani, SerajiH. Rahmani, and M. Ashtari, “The role of heat treatment on wear behavior of powder metallurgy low alloy steels,” Mater. Des. 23, No. 7, 667–670 (2002).CrossRef
16.
L. Ceschini, G. Palombarini, G. Sambogna, D. Firrao, G. Scavino, and G. Ubertalli, “Friction and wear behaviour of sintered steels submitted to sliding and abrasion tests,” Tribol. Int. 39, No. 8, 748–755 (2006).CrossRef
17.
S. S. Prabu, S. Prathiba, M. A. Asokan, J. Anshul, K. J. Neeraj, and K. C. Pratyush, “Investigations on dry sliding wear behaviour of Sintered/Extruded P/M Alloy Steels (Fe–C–W–Ti),” Procedia Eng. 97, 2119–2126 (2014).CrossRef
18.
X. Li, Y. H. Tan, H. J. Willy, P. Wang, W. Lu, M. Cagirici, C. Y. A. Ong, T. S. Herng, J. Wei, and J. Ding, “Heterogeneously tempered martensitic high strength steel by selective laser melting and its micro-lattice: Processing, microstructure, superior performance and mechanisms,” Mater. Des. 178, 107881 (2019).CrossRef
19.
M. Khaleghi, Sintering and Heat-Treatment of P/M Low Alloy Steels Prepared from a Particially Prealloyed Powder (Loughborough University of Technology, 1982).
20.
Sintering of Steels (Linde AG, Gases Division, Germany, 2020).
21.
A. Adeyemi, E. T. Akinlabi, and R. M. Mahamood, “Powder bed based laser additive manufacturing process of stainless steel: A review,” Mater. Today: Proc. 5, No. 9, 18510–18517 (2018).
22.
J. Milovanovic, M. Stojkovic, and M. Trajanovic, “Metal laser sintering for rapid tooling in application to tyre tread pattern mould,” in Sinter. – Methods Prod., pp. 73–90 (2012).
Metadata
Title
Comparative Study on H20 Steel Billets: Additive Manufacturing vs. Powder Metallurgy
Authors
S. Nasar
L. J. Baruch
S. J. Vijay
C. K. Srinivas
J. Jose
V. V. Popov
Publication date
01-05-2021
Publisher
Pleiades Publishing
Published in
Physics of Metals and Metallography / Issue 5/2021
Print ISSN: 0031-918X
Electronic ISSN: 1555-6190
DOI
https://doi.org/10.1134/S0031918X21050100

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