Abstract
Effect of mean stress on fretting fatigue behavior of 304 austenitic stainless steel has been investigated by conducting fretting fatigue tests at a constant contact pressure of 100 MPa under three different mean stresses i.e., 0, 350 and 450 MPa. For comparisons, plain fatigue tests were also carried out. The influence of tensile overload on fretting fatigue life was also investigated. The results showed that with an increase in mean stress, the reduction in fatigue strength due to fretting increased drastically from 51% at 0 MPa mean stress to 71% at 450 MPa mean stress. The application of tensile overload during fretting fatigue had significant influence on the fretting fatigue lives when the tensile overload was above yield strength. The fretting variables, i.e., tangential stress and relative slip amplitude were measured during fretting fatigue tests. Fracture surfaces were examined using scanning electron microscope. The results have been discussed based on the tangential stress measurement, relative slip amplitude evaluation during fretting fatigue and fracture surface examinations.
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References
Mutoh Y, JSME Int J Ser A 38 (1995) 405.
Waterhouse RB, Int Mater Rev 37 (1992) 77.
Mutoh Y, Nishida T, and Sakamoto I, J Soc Mater Sci Jpn 37 (1988) 649.
Lindley T C, Int J Fatigue 19 (1997) S39.
Lykins C D, Mall S, and Jain V, Fatigue Fract Eng Mater Struct 24 (2001) 461.
Sabelkin V, Martinez S A, Mall S, Sathish S, and Blodett M P, Fatigue Fract Eng Mater Struct 28 (2004) 321.
Jayaprakash M, Mutoh Y, and Yoshii K, Mater Des 32 (2011) 3911c.
Murugesan J, and Mutoh Y Tribol Int l76 (2014) 116.
Szolwinski M P, and Farris T N, Wear 198 (1996) 93.
Jayaprakash M, Mutoh Y, Asai K, Ichikawa K, and Sukurai S, Int J Fatigue 32 (2010) 1788.
Ruiz C, Boddington P H B, and Chen K C, Exp Mech 24 (1984) 208.
Christ H J, Wamukwamba C K, and Mughrabi H, Mater Sci Eng A A234 (1997) 382.
Kamaya M, and Kawakubo M, Int J Fatigue 74 (2015) 20.
Colin J, Fatemi A, and Taheri S, J Eng Mater Technol 132 (2010) 021008.
Miura N, and Takahashi Y, Int J Fatigue 28 (2006) 1618.
Jayaprakash M, Anchalee S, Miyashita Y, Otsuka Y, and Mutoh Y, Int J Fatigue 54 (2013) 99.
JSME S015 Test method for fretting fatigue. JSME (2002).
Mentat I I, Users Guide, Marc Analysis Research Corporation, USA (1996).
Mutoh Y, and Jayaprakash M, Tribol Int 4 (2011) 1394.
Xu J Q, and Mutoh Y, JSME Int J 45 (2002) 510.
Jayaprakash M, and Ganesh S, Trans Indian Inst Met 59 (2006) 431.
Nshioka K, and Hirakawa K, Bull JSME 12 (1969) 692.
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Jayaprakash, M., Okazaki, M., Miyashita, Y. et al. Fretting Fatigue Behavior of 304 Austenitic Stainless Steel Considering the Effect of Mean Stress and Tensile Overload. Trans Indian Inst Met 70, 597–603 (2017). https://doi.org/10.1007/s12666-017-1056-3
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DOI: https://doi.org/10.1007/s12666-017-1056-3