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Metallurgical and Materials Transactions A

Erschienen in:

01.09.2015

High-Cycle Fatigue Resistance of Si-Mo Ductile Cast Iron as Affected by Temperature and Strain Rate

verfasst von: Paolo Matteis, Giorgio Scavino, Alessandro Castello, Donato Firrao

Erschienen in: Metallurgical and Materials Transactions A | Ausgabe 9/2015

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Abstract

Silicon–molybdenum ductile cast irons are used to fabricate exhaust manifolds of internal combustion engines of large series cars, where the maximum pointwise temperature at full engine load may be higher than 973 K (700 °C). In this application, high-temperature oxidation and thermo-mechanical fatigue (the latter being caused by the engine start and stop and by the variation of its power output) have been the subject of several studies and are well known, whereas little attention has been devoted to the high-cycle fatigue, arising from the engine vibration. Therefore, the mechanical behavior of Si-Mo cast iron is studied here by means of stress-life fatigue tests up to 10 million cycles, at temperatures gradually increasing up to 973 K (700 °C). The mechanical characterization is completed by tensile and compressive tests and ensuing fractographic examinations; the mechanical test results are correlated with the cast iron microstructure and heat treatment.

Vorheriger Artikel Effect of Temperature on the Nano/Microstructure and Mechanical Behavior of Nanotwinned Ag Films

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L. Jenkins, G. Ruff, and F. Dube, eds.: Ductile Iron Data for Design Engineers, Rio Tinto Iron & Titanium Inc., Montreal, Canada, 1990.

D. Li, R. Perrin, G. Burger, D. McFarlan, B. Black, R. Logan, and R. Williams: SAE Technical Paper 2004-01-0792, 2004.

F. Tholence, M. Norell, 2008. Oxid. Met. 69, 13-36CrossRef

Yoon-Jun Kim, Ho Jang, Yong-Jun Oh, 2009. High-temperature low-cycle fatigue property of heat-resistant ductile-cast irons. Metallurgical and Materials Transactions A 40, 2087–97.CrossRef

D. Li, C. Sloss, 2010. Ferrous high-temperature alloys for exhaust component applications. SAE International Journal of Materials & Manufacturing, 3(1), 391-404.CrossRef

M. Takanezawa, Y. Tomota, Y. Kobayashi, 1998. A new heat resistant cast iron for thin wall exhaust manifold. ISIJ international, 38(1), 106-108.CrossRef

H.K. Zeytin, C. Kubilay, H. Aydin, A.A. Ebrinc, B. Aydemir, 2009. Effect of microstructure on exhaust manifold cracks produced from SiMo ductile iron. Journal of Iron and Steel Research International 16, 32-36CrossRef

SAE Standard J2515: High Temperature Materials for Exhaust Manifolds, SAE International, Warrendale, PA, 2015.

C. Delprete, R. Sesana, A. Vercelli, 2010. Proc. Eng., 2(1), 725–34.CrossRef

10.

D. Mellouli, N. Haddar, A. Koster, A. M. L. Toure, 2011. Thermal fatigue of cast irons for automotive application. Mater. Des., 32(3), 1508-1514.CrossRef

11.

M. Ekstrom, S. Jonsson, 2014. High-temperature mechanical and fatigue properties of cast alloys intended for use in exhaust manifolds. Materials Science and Engineering A, 616, 78-87.CrossRef

12.

P. Von Hartrott, T. Seifert, S. Dropps, 2014. SAE Int. J. Mater. Manuf., 7(2), 439–45.CrossRef

13.

Y. L. Yang, Z. Y. Cao, Z. S. Lian, H. X. Yu, 2013. Thermal fatigue behavior and cracking characteristics of high Si-Mo nodular cast iron for exhaust manifolds. Journal of Iron and Steel Research, International, 20(6), 52-57.CrossRef

14.

S. Sissa, M. Giacopini, R. Rosi, 2014. Low-cycle thermal fatigue and high-cycle vibration fatigue life estimation of a diesel engine exhaust manifold. Procedia Engineering, 74, 105–12.CrossRef

15.

S. Rajadurai, M.G. Prasad, R. Kavin, M. Sundaravadivelu: SAE Technical Paper No. 2014-28-0036, 2014.

16.

C. Delprete, R. Sesana, 2014. Experimental characterization of a Si–Mo–Cr ductile cast iron. Materials and Design, 57, 528-537.CrossRef

17.

P. Matteis, G. Scavino, A. Castello, D. Firrao, Procedia Materials Science, 2014. High temperature fatigue properties of a Si-Mo ductile cast iron. Procedia Materials Science, 3, 2154-2159.CrossRef

18.

W.D. Pilkey, D.F. Pilkey, Peterson’s stress concentration factors, John Wiley & Sons, Hoboken, New Jersey, USA, 2008, p. 101

19.

W.J. Dixon, A.M. Mood, A method for obtaining and analyzing sensitivity data, Journal of the American Statistical Association, 43 (1948) 109-126CrossRef

20.

UNI 3964:1985 Italian National Standard: Mechanical Testing of Metallic Materials—Fatigue Testing at Room Temperature—General Principles, 1985 [in Italian]

21.

ISO 945-1:2008 International Standard, Microstructure of Cast Irons—Part 1: Graphite Classification by Visual Analysis, 2008.

22.

V. Di Cocco, F. Iacoviello, M. Cavallini, 2010. Damaging micromechanisms characterization of a ferritic ductile cast iron. Engineering Fracture Mechanics, 77, 2016–2023.CrossRef

23.

V. Di Cocco, F. Iacoviello, A. Rossi, D. Iacoviello, 2014. Macro and microscopical approach to the damaging micromechanisms in a ferritic ductile cast iron. Theoretical and Applied Fracture Mechanics, 69, 26-33.CrossRef

24.

G. Scavino, F. D’aiuto, P. Matteis, P.R. Spena, D. Firrao: Metall. Mater. Trans. A, 2010, vol. 41A, 1493–501.

25.

E. Rizzi, P. Hahner, 2004. Int. J. Plast, 20(1), 121–65.CrossRef

Titel: High-Cycle Fatigue Resistance of Si-Mo Ductile Cast Iron as Affected by Temperature and Strain Rate
verfasst von: Paolo Matteis
Giorgio Scavino
Alessandro Castello
Donato Firrao
Publikationsdatum: 01.09.2015
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions A / Ausgabe 9/2015
Print ISSN: 1073-5623
Elektronische ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-015-3029-7

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