Pengaruh Ball Peening terhadap Kekerasan Baja Tahan Karat AISI 316L
DOI:
https://doi.org/10.21776/ub.jrm.2016.007.03.7Keywords:
Ball Peening, Kekerasan, AISI 316LAbstract
In this work, ball peening was performed in order to evaluate its effect on the AISI 316L hardness. The process was conducted by employing AISI E52100 Chrome Steel ball which has hardness 752 HVN as bomber. In this research ball peening process was performed at three different nozzle pressure (6, 7, and 8 bar) for 5 minutes. Vickers Micro Hardness Tester and Digital Optical Microscope was used to characterize the samples hardness and grains structure respectively. The results showed that the hardness of AISI 316L was improved. It may due to plastic deformation which toke places on its grains.References
M.D. Pereda, K.W. Kang, R. Bonetto, C. Llorente, P. Bilmes, C. Gervasi, Impact of surface treatment on the corrosion resistance of ASTM F138-F139 stainless steel for biomedical applications, Procedia Materials Science 1 (2012) 446–453.
H. Yang, K. Yang, B. Zhang, Pitting corrosion resistance of La added 316L stainless steel in simulated body fluids, Mater. Lett. 61 (2007) 1154.
J. Walczak, F. Shahgaldi, F. Heatley, In vivo corrosion of 316L stainless-steel hip implants: morphology and elemental compositions of corrosion products, Biomaterials19 (1998) 229.
G.K. Triantafyllidis, A.V. Kazantzis, K.T. Karageorgiou, Premature fracture of a stainless steel 316L orthopaedic plate implant by alternative episodes of fatigue and cleavage decoherence, Eng. Fail. Anal. 14 (2007) 1346–1350.
S. Griza, G. Zanon, E.P. Silva, F. Bertoni, A. Reguly, T.R. Strohaecker, Design aspects involved in a cemented THA stem failure case, Eng. Fail. Anal. 16 (2009) 512
J.W. Schultze, M.M. Lohrengel, Stability, reactivity and breakdown of passive ï¬lms. Problems of recent and future research, Electrochim. Acta 45 (15–16) (2000) 2499–2513.
P. Schmuki, From bacon to barriers: a review on the passivity of metals and alloys, J. Solid State Electrochem. 6 (2002) 145–164.
I. MiloÅ¡ev, M. MetikoÅ¡-Huković, H.H. Strehblow, Passive ï¬lm on orthopaedic TiAlV alloy formed in physiological solution investigated by X-ray photoelectron spectroscopy, Biomaterials 21 (2000) 2103–2113.
I. Milošev, H.H. Strehblow, The behavior of stainless steels in physiological solution containing complexing agent studied by X-ray photoelectron spectroscopy, J. Biomed. Mater. Res. 52 (2000) 404–412.
I. MiloÅ¡ev, H.H. Strehblow, The composition of the surface passive ï¬lm formed on CoCrMo alloy in simulated physiological solution, Electrochim. Acta 48 (2003) 2767–2774.
S.H. Teoh, Fatigue of biomaterials: a review, Int. J. Fatigue 22 (2000) 825–837
M. Jasty, W.J. Maloney, C.R. Bragdon, D.O. O'Connor, T. Haire, W.H. Harris, The initi-ation of failure in cemented femoral components of hip arthroplasties, Bone Joint Surg. 20 Ser. B. 73 (1991) 551.
Nama pertama, nama kedua, dan nama ketiga, tahun, Penomoran Sitasi pada Isi Paragraf, Nama jurnal, Negara/Kota, Vol. X, No. X, pp. A-Z.
D. F. Williams, Corrosion of implant materials, Annu. Rev. Mater. Sci. 6 (1976) 237.
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