Interplay Between Residual Stresses, Microstructure, Process Variables and Engine Block Casting Integrity
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- 作者:Anthony Lombardi (1)
Francesco D’Elia (1)
Comondore Ravindran (1)
Dimitry Sediako (2)
B. S. Murty (3)
Robert MacKay (4) - 刊名:Metallurgical and Materials Transactions A
- 出版年:2012
- 出版时间:December 2012
- 年:2012
- 卷:43
- 期:13
- 页码:5258-5270
- 全文大小:898KB
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Francesco D’Elia (1)
Comondore Ravindran (1)
Dimitry Sediako (2)
B. S. Murty (3)
Robert MacKay (4)
1. Centre for Near-Net-Shape Processing of Materials, Ryerson University, Toronto, ON, M5B 2K3, Canada
2. Canadian Neutron Beam Centre, National Research Council, Chalk River, ON, K0J 1J0, Canada
3. Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras, Chennai, 600 036, India
4. Nemak of Canada Corporation, Windsor, ON, N9C 4G8, Canada - ISSN:1543-1940
文摘
The replacement of nodular cast iron with 319 type aluminum (Al) alloys in gasoline engine blocks is an example of the shift towards the use of lighter alloys in the automotive industry. However, excessive residual stress along the cylinder bore may lead to bore distortion, significantly reducing engine operating efficiency. In the current study, microstructure, mechanical properties and residual stress were characterized along the cylinder bridge of engine blocks following thermal sand reclamation (TSR), T7 heat treatment, and service testing of the casting. Neutron diffraction was effectively used to quantify the residual stress along both the Al cylinder bridge and the adjacent gray cast iron cylinder liners in the hoop, radial, and axial orientations with respect to the cylinder axis. The results suggest that an increase in cooling rate along the cylinder caused a significant refinement in microstructure at the bottom of the cylinder. In turn, this suggested an increase in alloy strength at the bottom of the cylinder relative to the top. This increased strength at the bottom of the cylinder likely reduced the susceptibility of the cylinder to rapid relief of residual stress at elevated temperature. In contrast, the coarse microstructure at the top of the cylinder likely triggered stress relief at an elevated temperature.