MATERIALS TRANSACTIONS
Online ISSN : 1347-5320
Print ISSN : 1345-9678
ISSN-L : 1345-9678
Effect of Alloying Elements on High Temperature Mechanical Properties for Piston Alloy
Chang-Yeol Jeong
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2012 Volume 53 Issue 1 Pages 234-239

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Abstract

Recent legislative and environmental pressures on the automotive industry to produce light-weight fuel-efficient vehicles with lower emissions have led to a requirement for more efficient engines. Therefore, combustion pressures of diesel engines have increased up to 20 MPa and the more durable alloys for pistons are thus necessary to increase the thermal and fatigue resistance. The demand for more efficient engines is resulting in components operating under severe stress and temperature conditions. During start/stop of engine cycles, LCF (low cycle fatigue) phenomena is generated due to the thermal transient, also HCF (high cycle fatigue) and creep deformation occur under the steady-state engine temperature during operation of engine. A quantitative study of the effect of alloying elements on mechanical behavior of Al–12 mass%Si casting alloys for piston has been conducted. In the condition of minimizing casting defects, the influence of compounds features on the high temperature mechanical performance became more pronounced. Depending on Ni and Cu content affecting the strength of the matrix, the tensile strength was increased with Ni and Cu content, whereas the elongation was increased in the reverse case. Also, creep resistance was drastically increased with Ni and Cu contents mainly due to prevention of deformation owing to the increased eutectic and precipitation particles. LCF lives were decreased with alloy contents in Coffin–Manson relation because of the smaller elongation, but the analysis of fatigue lives with hysteresis loop energy which consists of both strength and elongation showed that the fatigue lives were normalized regardless of chemical compositions and test temperature.

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© 2011 The Japan Institute of Metals and Materials
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