Effect of loading type on S-N fatigue behavior of SPRC340 steel sheet

In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial l...

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Published in	Metals and materials international Vol. 15; no. 6; pp. 925 - 929
Main Authors	Kwon, Jaeki, Kim, Youngju, Han, Seungzeon, Goto, Masahiro, Kim, Sangshik
Format	Journal Article
Language	English
Published	Springer The Korean Institute of Metals and Materials 01.12.2009 Springer Nature B.V 대한금속·재료학회
Subjects	Bending stresses Characterization and Evaluation of Materials Chemistry and Materials Science Engineering Thermodynamics Fatigue Heat and Mass Transfer Machines Magnetic Materials Magnetism Manufacturing Materials Science Metallic Materials Metallurgy Processes Solid Mechanics 재료공학 bending S-N fatigue uniaxial loading SPRC340 R ratio
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ISSN	1598-9623 2005-4149
DOI	10.1007/s12540-009-0925-7

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Abstract	In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial loading, the present specimens tended to show lower fatigue resistance under bending than under uniaxial loading. This trend appeared to be associated with several factors, including multi-site crack initiation on both sides of the specimen in bending, increasing error in the elastic bending stress calculation, and cyclic hardening during fatigue. The effects of loading type, including uniaxial loading and bending, on the S-N fatigue behavior are discussed.
AbstractList	In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial loading, the present specimens tended to show lower fatigue resistance under bending than under uniaxial loading. This trend appeared to be associated with several factors, including multi-site crack initiation on both sides of the specimen in bending, increasing error in the elastic bending stress calculation, and cyclic hardening during fatigue. The effects of loading type, including uniaxial loading and bending, on the S-N fatigue behavior are discussed.[PUBLICATION ABSTRACT] In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial loading, the present specimens tended to show lower fatigue resistance under bending than under uniaxial loading. This trend appeared to be associated with several factors, including multi-site crack initiation on both sides of the specimen in bending, increasing error in the elastic bending stress calculation, and cyclic hardening during fatigue. The effects of loading type, including uniaxial loading and bending, on the S-N fatigue behavior are discussed. In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel sheet product. In contrast with the commonly held belief that the apparent fatigue resistance under bending is higher than that under uniaxial loading, the present specimens tended to show lower fatigue resistance under bending than under uniaxial loading. This trend appeared to be associated with several factors, including multi-site crack initiation on both sides of the specimen in bending, increasing error in the elastic bending stress calculation, and cyclic hardening during fatigue. The effects of loading type, including uniaxial loading and bending, on the S-N fatigue behavior are discussed. KCI Citation Count: 7
Author	Kim, Sangshik Kwon, Jaeki Goto, Masahiro Han, Seungzeon Kim, Youngju
Author_xml	– sequence: 1 givenname: Jaeki surname: Kwon fullname: Kwon, Jaeki organization: School of Nano and Advanced Materials Engineering, Engineering Research Institute, i-Cube Center, Gyeongsang National University – sequence: 2 givenname: Youngju surname: Kim fullname: Kim, Youngju email: kyjp7272@kigam.re.kr organization: Mineral Resources Research Division, Korea Institute of Geoscience and Mineral Resources – sequence: 3 givenname: Seungzeon surname: Han fullname: Han, Seungzeon organization: Department of Advanced Metallic Materials, Korea Institute of Materials Science – sequence: 4 givenname: Masahiro surname: Goto fullname: Goto, Masahiro organization: Department of Mechanical Engineering, Oita University – sequence: 5 givenname: Sangshik surname: Kim fullname: Kim, Sangshik organization: School of Nano and Advanced Materials Engineering, Engineering Research Institute, i-Cube Center, Gyeongsang National University
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Snippet	In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel... In the present study, the effect of loading type on S-N fatigue behavior was examined using a 0.7 mm thick SPRC340 (Fe-0.08C-0.7Mn-0.5Si-0.12P-0.03S) steel...
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SubjectTerms	Bending stresses Characterization and Evaluation of Materials Chemistry and Materials Science Engineering Thermodynamics Fatigue Heat and Mass Transfer Machines Magnetic Materials Magnetism Manufacturing Materials Science Metallic Materials Metallurgy Processes Solid Mechanics 재료공학
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Title	Effect of loading type on S-N fatigue behavior of SPRC340 steel sheet
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