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Coating thickness and roughness effect on stress distribution of A356.0 under thermo-mechanical loadings
Moridi, A ; Sharif University of Technology | 2011
1677
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- Type of Document: Article
- DOI: 10.1016/j.proeng.2011.04.228
- Publisher: 2011
- Abstract:
- Cast aluminium-silicon alloy, A356.0, is widely used in automotive components such as diesel engine cylinder heads and also in aerospace industries because of its outstanding mechanical, physical, and casting properties. Thermal barrier coatings are applied to combustion chamber in order to reduce fuel consumption and pollutions and also improve fatigue life of components. However, studies on behaviour of A356.0 with thermal barrier coating are still rare. The purpose of the present work is to simulate stress distribution of A356.0 under thermo-mechanical cyclic loadings, using a two-layer elastic-visco-plastic model of ABAQUS software. The results of stress-strain hysteresis loop are validated by an out of phase thermo-mechanical fatigue test. Then, ceramic coating thickness effect on stress distribution of test specimens is investigated. Different thicknesses from 300 to 800 microns of top coat and also roughness of the interfaces are simulated to get best stress gradient which can cause an improvement of fatigue life. Studying realistic interface roughness shows the critical area of tensile stress which results in crack initiation. Furthermore increasing TC thickness results in stress growth
- Keywords:
- Cast aluminium-silicon alloy ; Fatigue ; ABAQUS software ; Aluminium silicon alloy ; Automotive component ; Casting properties ; Coating thickness ; Critical area ; Cyclic loadings ; Interface roughness ; Out of phase ; Roughness effects ; Stress gradient ; Stress growth ; Stress-strain hysteresis loops ; Test specimens ; Thermal barrier ; Thermo-mechanical ; Thermo-mechanical loading ; Thermomechanical fatigue ; Top-coats ; Two layers ; ABAQUS ; Aerospace industry ; Aluminum ; Casting ; Ceramic coatings ; Combustion chambers ; Diesel engines ; Engine cylinders ; Fatigue of materials ; Fatigue testing ; Loading ; Mechanical engineering ; Mechanical properties ; Silicon alloys ; Stress analysis ; Stress concentration ; Thermal conductivity ; Thickness measurement ; Thermal barrier coatings
- Source: Procedia Engineering, 5 June 2011 through 9 June 2011 ; Volume 10 , June , 2011 , Pages 1372-1377 ; 18777058 (ISSN)
- URL: http://www.sciencedirect.com/science/article/pii/S1877705811004164