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The International Journal of Advanced Manufacturing Technology

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24-08-2022 | ORIGINAL ARTICLE

Microstructure and corrosion behavior of friction-surfaced 304L austenitic stainless steels

Authors: Hemant Agiwal, Kumar Sridharan, Frank E. Pfefferkorn, Hwasung Yeom

Published in: The International Journal of Advanced Manufacturing Technology | Issue 3-4/2022

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Abstract

Friction surfacing is a solid-state deposition process that provides microstructural and mechanical property benefits over fusion-based deposition methods as a result of the lower heat input and hot working. The study examines microstructure and corrosion properties for friction-surfaced 304L stainless steel consumable rods on 304L stainless steel substrates. Microstructural characterization revealed fine-grained microstructure with distributed strain-induced martensite and high residual compressive stresses. Corrosion studies of friction-surfaced specimens were carried out by exposure to FeCl₃ and MgCl₂ solutions per ASTM G48 and ASTM G36 standards, respectively. The corrosion tests showed friction surfacing led to shallower and smaller pits than the uncoated substrate, however, the pit number density was higher in the friction-surfaced specimens. The microstructural transformations during friction surfacing are beneficial to mitigating pitting corrosion and potentially chloride-induced stress corrosion cracking (CISCC).

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Klopstock H (1941) An improved method of joining or welding metals. Patent specification Ref 572789

Gandra J, Krohn H, Miranda RM, Vilaça P, Quintino L, Dos Santos JF (2014) Friction surfacing - a review. In Journal of Materials Processing Technology. https://doi.org/10.1016/j.jmatprotec.2013.12.008CrossRef

Bedford GM, Vitanov VI, Voutchkov II (2001) On the thermo-mechanical events during friction surfacing of high speed steels. Surf Coat Technol 141

Rafi HK, Phanikumar G, Rao KP (2011) Material flow visualization during friction surfacing. Metall and Mater Trans A 42(4):937–939CrossRef

Khalid Rafi H, Kishore Babu N, Phanikumar G, Prasad Rao K (2013) Microstructural evolution during friction surfacing of austenitic stainless steel AISI 304 on low carbon steel. Metallurg Mater Transact A 44(1):345–350

Chandrasekaran M, Batchelor AW, Jana S (1997) Study of the interfacial phenomena during friction surfacing of aluminium with steels. J Mater Sci 32(22):6055–6062CrossRef

Shariq M, Srivastava M, Tripathi R, Chattopadhyaya S, Dixit AR (2016) Feasibility study of friction surfaced coatings over non-ferrous substrates. Proced Eng 149:465–471

Joshi A, Stein DF (1972) Chemistry of grain boundaries and its relation to intergranular corrosion of austenitic stainless steel. Corrosion 28(9):321–330

Jackson EM, De Visser PE, Cornish LA (1993) Distinguishing between Chi and Sigma phases in duplex stainless steels using potentiostatic etching. Mater Charact 31(4):185–190CrossRef

10.

Bedford GM, Sharp RJ, Davis AJ (1995) Micro-friction surfacing in the manufacture and repair of gas turbine blades. In 3rd International Charles Parsons Turbine Conference: Mater Eng Turb Compress 689–698

11.

Beyer M, Resende A, Santos J (2003) Friction surfacing for multi-sectorial applications–FRICSURF. Institute for Materials Research, GKSS Forschungszentrum Geesthacht GmbH. Technical Report

12.

Yamashita Y, Fujita K (2001) Newly developed repairs on welded area of LWR stainless steel by friction surfacing. J Nucl Sci Technol 38(10):896–900CrossRef

13.

Agiwal H, Yeom H, Ross KA, Sridharan K, Pfefferkorn FE (2022) Leak-tight crack repair for 304L stainless steel using friction surfacing. J Manuf Process 79:532–543CrossRef

14.

Khalid Rafi H, Phanikumar G, Prasad Rao K (2013) Corrosion resistance of friction surfaced AISI 304 stainless steel coatings. J Mater Eng Perform 22(2):366–370

15.

Puli R, Ram GJ (2012) Dynamic recrystallization in friction surfaced austenitic stainless steel coatings. Mater Charact 74:49–54CrossRef

16.

Guo D, Kwok CT, Chan SLI (2019) Spindle speed in friction surfacing of 316L stainless steel–How it affects the microstructure, hardness and pitting corrosion resistance. Surf Coat Technol 361:324–341CrossRef

17.

Nixon RG, Mohanty BS, Sathish R (2018) Friction surfacing of AISI 316 over mild steel: a characteriation study. Def Technol 14(4):306–312

18.

Hanson B, Alsaed H, Stockman C, Enos D, Meyer R, Sorenson K (2012) General gap to support extended storage of used nuclear fuel. FCRD-USED-2011–000136, PNNL 20509

19.

Bruemmer SM, Was GS (1994) Microstructural and microchemical mechanisms controlling intergranular stress corrosion cracking in light-water-reactor systems. J Nucl Mater 216:348–363CrossRef

20.

Astafurov SV, Maier GG, Melnikov EV, Moskvina VA, Panchenko MY, Astafurova EG (2019) The strain-rate dependence of the Hall-Petch effect in two austenitic stainless steels with different stacking fault energies. Mater Sci Eng A 756:365–372CrossRef

21.

Di Schino A, Kenny JM (2002) Effects of the grain size on the corrosion behavior of refined AISI 304 austenitic stainless steels. J Mater Sci Lett 21(20):1631–1634

22.

Jinlong Lv, Hongyun L (2013) Comparison of corrosion properties of passive films formed on phase reversion induced nano/ultrafine-grained 321 stainless steel. Appl Surf Sci 280:124–131CrossRef

23.

Ralston KD, Birbilis N (2010) Effect of grain size on corrosion: a review. Corrosion 66(7):075005–075005

24.

Cheung C, Erb U, Palumbo G (1994) Application of grain boundary engineering concepts to alleviate intergranular cracking in Alloys 600 and 690. Mater Sci Eng, A 185(1–2):39–43CrossRef

25.

Hishida M, Nakada H (1978) Critical cooling rate of 18Cr-8Ni stainless steel for sensitization and subsequent intergranular stress corrosion cracking in High temperature water. Corrosion 34(1):338–344

26.

Kumar BR, Singh R, Mahato B, De PK, Bandyopadhyay NR, Bhattacharya DK (2005) Effect of texture on corrosion behavior of AISI 304L stainless steel. Mater Charac 54(2):141–147

Title: Microstructure and corrosion behavior of friction-surfaced 304L austenitic stainless steels
Authors: Hemant Agiwal
Kumar Sridharan
Frank E. Pfefferkorn
Hwasung Yeom
Publication date: 24-08-2022
Publisher: Springer London
Published in: The International Journal of Advanced Manufacturing Technology / Issue 3-4/2022
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-022-09982-8

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