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Abstract
The purpose of this study is to evaluate the fatigue life of an automotive engine valve spring when the micro defect is applied to a 2300 MPa-class oil-tempered wire (OT wire) with 2.5 mm of diameter as the critical flaw depth. First, the deformation of the surface flaws in the OT wire during the valve spring manufacturing processes was derived via FE analysis using the sub-modeling technique, and the residual stress of the final spring was measured and applied to the spring stress analysis model. Second, the strength of the valve spring was analyzed to examine the presence of residual stress and compare the applied stress levels by the surface flaw. Third, the influence of micro defects on the fatigue life of the spring was evaluated by applying the stress on the surface flaw derived through the spring strength analysis to the S–N curve derived through a rotary bending fatigue test with the OT wire. The flaw depth of 40 µm, which is the existing criterion for surface flaw management, does not reduce the fatigue life.
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Details
1 Pusan National University, Department of Nanomechatronics Engineering, Busan, Republic of Korea (GRID:grid.262229.f) (ISNI:0000 0001 0719 8572)
2 ERAE AMS Co., Ltd., Product Engineering, Daegu, Republic of Korea (GRID:grid.262229.f)
3 Korea Maritime and Ocean University, Division of Coast Guard Studies, Busan, Republic of Korea (GRID:grid.258690.0) (ISNI:0000 0000 9980 6151)