Study on fatigue strength of SnSb11Cu6 babbitt-steel bimetal sliding bearing material prepared by MIG brazing

Xinbo Wang; Zhongwei Yin; Yonghong Chen

doi:10.1051/meca/2019075

All issues

Volume 21 / No 1 (2020)

Mechanics & Industry, 21 1 (2020) 106

References

Open Access

Issue		Mechanics & Industry Volume 21, Number 1, 2020


Article Number		106
Number of page(s)		6
DOI		https://doi.org/10.1051/meca/2019075
Published online		07 January 2020

Y. Wang, S. Li, D. Xiang, W. Meng, Experimental and theoretical analyses of the contact-impact behavior of Babbitt ZChSnSb11-6, Proc. Inst. Mech. Eng. 23, 1267–12763 (2017) [Google Scholar]
M. Wei, K. Sun, X. Zhang, C. Zhang, Z. Chen, J. Zhou, F. Xue, Microstructure and bonding strength of tin-based Babbitt alloy on ASTM 1045 steel by MIG arc brazing, J. Adhes. Sci. Technol. 32, 2150–2161 (2018) [Google Scholar]
D. Zhang, F. Zhao, Y. Li, P. Li, Q. Zeng, G. Dong, Study on tribological properties of multi-layer surface texture on Babbitt alloys surface, Appl. Surf. Sci. 390, 540–549 (2016) [Google Scholar]
J. Fan, Z. Liu, Y. Guo, X. Wang, S. Wu, Y. Li, X. Wang, J. Liu, Effect of Ni layer on the microstructure evolution and mechanical property of Cu-based bearing shell with aging treatment, Mater. Chem. Phys. 217, 527–532 (2018) [Google Scholar]
P. Diouf, A. Jones, Investigation of bond strength in centrifugal lining of Babbitt on cast iron, Metall. Mater. Trans. A-Phys. Metall. Mater. Sci. 41, 603–609 (2010) [CrossRef] [Google Scholar]
M. Ramadan, N. Fathy, K.S. Abdel Halim, A.S. Alghamdi, New trends and advances in bi-metal casting technologies, Int. J. Adv. Appl. Sci. 6, 75–80 (2019) [Google Scholar]
Z. Zhang, S. Duan, H. Zhang, D. Li, W. Sun, C. Yang, Microstructure and properties of arc sprayed tin-based babbitt coating, Trans. China Weld. Inst. 31, 17–20 (2010) [Google Scholar]
N.V. Kobernik, R.S. Mikheev, S.S. Kremlev, Plasma-powder deposition of Babbit alloys, Weld. Int. 29, 654–656 (2014) [CrossRef] [Google Scholar]
Y.B. Hao, K. Zhao, P. Yang, Z.L. Zhu, Y. Yang, L.F. Wang, Microstructure and mechanical properties of tin-based Babbitt alloy made by laser cladding deposition, Chin. J. Nonferrous Met. 28, 2016–2023 (2018) [Google Scholar]
F. Zhou, Q. Zhang, M. Shi, J. Guo, H. Li, The effect of TIG arc brazing current on interfacial structure and bonding strength of tin-based babbit, J. Adhes. Sci. Technol. 31, 2312–2322 (2017) [Google Scholar]
K. Sun, P.Y. Wang, M.Z. Wei, J. Zhou, F. Xue, The effect of parameter of MIG arc brazing on microstructure and bonding strength of tin-based babbitt alloy ZChSnSb11-6 on ASTM 1045 Steel, IOP Conf. Ser. Mater. Sci. Eng. 436, 012002 (2018) [Google Scholar]
P.R.C. Alcover Junior, A.G.M. Pukasiewicz, Evaluation of microstructure, mechanical and tribological properties of a Babbitt alloy deposited by arc and flame spray processes, Tribol. Int. 131, 148–157 (2019) [Google Scholar]
A.K. Valeeva, I.S. Valeev, A.K. Akhunova, Fracture and wear of the Sn11Sb5. 5Cu Babbitt after equal-channel angular pressing, Lett. Mater. 8, 473–477 (2018) [CrossRef] [Google Scholar]
J.M. Wang, Y.W. Xue, W.H. Li, A.Z. Wei, Y.F. Cao, Study on creep characteristics of oil film bearing Babbitt, Mater. Res. Innov. 18, S2-16-S12-21 (2014) [Google Scholar]
L. Branagan, Survey of damage investigation of babbitted industrial bearings, Lubricants 3, 91–112 (2015) [Google Scholar]
G.C. Pratt, Materials for Plain Bearings, Int. Met. Rev. 18, 62–88 (1973) [CrossRef] [Google Scholar]
C.S. Crooks, D.D. Parker, The importance of crankshaft surface texture to bearing system reliability. No. 960983, SAE Technical Paper, 1996 [Google Scholar]
H. Xu, An investigation into fatigue life prediction of engine bearings, World Tribology Congress III: American Society of Mechanical Engineers Digital Collection (2008) 563–564 [Google Scholar]
D.N. Fenner, J.D.C. McIvor, J.M. Conway-Jones, H. Xu, The effect of compliance on peak oil film pressure in connecting rod bearings, Tribology Ser. 25, 149–156 (1993) [CrossRef] [Google Scholar]
F.A. Sadykov, N.P. Barykin, I.S. Valeev, Influence of temperature and strain rate on the mechanical properties of B83 babbitt with different structures, Strength Mater. 34, 196–199 (2002) [CrossRef] [Google Scholar]

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[1] Y. Wang, S. Li, D. Xiang, W. Meng, Experimental and theoretical analyses of the contact-impact behavior of Babbitt ZChSnSb11-6, Proc. Inst. Mech. Eng. 23, 1267–12763 (2017) [Google Scholar]

[2] M. Wei, K. Sun, X. Zhang, C. Zhang, Z. Chen, J. Zhou, F. Xue, Microstructure and bonding strength of tin-based Babbitt alloy on ASTM 1045 steel by MIG arc brazing, J. Adhes. Sci. Technol. 32, 2150–2161 (2018) [Google Scholar]

[3] D. Zhang, F. Zhao, Y. Li, P. Li, Q. Zeng, G. Dong, Study on tribological properties of multi-layer surface texture on Babbitt alloys surface, Appl. Surf. Sci. 390, 540–549 (2016) [Google Scholar]

[4] J. Fan, Z. Liu, Y. Guo, X. Wang, S. Wu, Y. Li, X. Wang, J. Liu, Effect of Ni layer on the microstructure evolution and mechanical property of Cu-based bearing shell with aging treatment, Mater. Chem. Phys. 217, 527–532 (2018) [Google Scholar]

[5] P. Diouf, A. Jones, Investigation of bond strength in centrifugal lining of Babbitt on cast iron, Metall. Mater. Trans. A-Phys. Metall. Mater. Sci. 41, 603–609 (2010) [CrossRef] [Google Scholar]

[6] M. Ramadan, N. Fathy, K.S. Abdel Halim, A.S. Alghamdi, New trends and advances in bi-metal casting technologies, Int. J. Adv. Appl. Sci. 6, 75–80 (2019) [Google Scholar]

[7] Z. Zhang, S. Duan, H. Zhang, D. Li, W. Sun, C. Yang, Microstructure and properties of arc sprayed tin-based babbitt coating, Trans. China Weld. Inst. 31, 17–20 (2010) [Google Scholar]

[8] N.V. Kobernik, R.S. Mikheev, S.S. Kremlev, Plasma-powder deposition of Babbit alloys, Weld. Int. 29, 654–656 (2014) [CrossRef] [Google Scholar]

[9] Y.B. Hao, K. Zhao, P. Yang, Z.L. Zhu, Y. Yang, L.F. Wang, Microstructure and mechanical properties of tin-based Babbitt alloy made by laser cladding deposition, Chin. J. Nonferrous Met. 28, 2016–2023 (2018) [Google Scholar]

[10] F. Zhou, Q. Zhang, M. Shi, J. Guo, H. Li, The effect of TIG arc brazing current on interfacial structure and bonding strength of tin-based babbit, J. Adhes. Sci. Technol. 31, 2312–2322 (2017) [Google Scholar]

[11] K. Sun, P.Y. Wang, M.Z. Wei, J. Zhou, F. Xue, The effect of parameter of MIG arc brazing on microstructure and bonding strength of tin-based babbitt alloy ZChSnSb11-6 on ASTM 1045 Steel, IOP Conf. Ser. Mater. Sci. Eng. 436, 012002 (2018) [Google Scholar]

[12] P.R.C. Alcover Junior, A.G.M. Pukasiewicz, Evaluation of microstructure, mechanical and tribological properties of a Babbitt alloy deposited by arc and flame spray processes, Tribol. Int. 131, 148–157 (2019) [Google Scholar]

[13] A.K. Valeeva, I.S. Valeev, A.K. Akhunova, Fracture and wear of the Sn11Sb5. 5Cu Babbitt after equal-channel angular pressing, Lett. Mater. 8, 473–477 (2018) [CrossRef] [Google Scholar]

[14] J.M. Wang, Y.W. Xue, W.H. Li, A.Z. Wei, Y.F. Cao, Study on creep characteristics of oil film bearing Babbitt, Mater. Res. Innov. 18, S2-16-S12-21 (2014) [Google Scholar]

[15] L. Branagan, Survey of damage investigation of babbitted industrial bearings, Lubricants 3, 91–112 (2015) [Google Scholar]

[16] G.C. Pratt, Materials for Plain Bearings, Int. Met. Rev. 18, 62–88 (1973) [CrossRef] [Google Scholar]

[17] C.S. Crooks, D.D. Parker, The importance of crankshaft surface texture to bearing system reliability. No. 960983, SAE Technical Paper, 1996 [Google Scholar]

[18] H. Xu, An investigation into fatigue life prediction of engine bearings, World Tribology Congress III: American Society of Mechanical Engineers Digital Collection (2008) 563–564 [Google Scholar]

[19] D.N. Fenner, J.D.C. McIvor, J.M. Conway-Jones, H. Xu, The effect of compliance on peak oil film pressure in connecting rod bearings, Tribology Ser. 25, 149–156 (1993) [CrossRef] [Google Scholar]

[20] F.A. Sadykov, N.P. Barykin, I.S. Valeev, Influence of temperature and strain rate on the mechanical properties of B83 babbitt with different structures, Strength Mater. 34, 196–199 (2002) [CrossRef] [Google Scholar]