Stress Development and Adhesion in Hydrogenated Nano-Columnar Pd and Pd/Ti Ultra-Thin Films
p.872
p.872
Time-Resolved X-Ray Stress Analysis in Multilayered Thin Films during Continuous Loading: Use of 2D Remote Detection
p.878
p.878
Structure-Mechanical Property Relationship in Hot-Dip Galvanized S355k2+N Steel Plates
p.884
p.884
Determination of Residual Stress Fields in a Thermally Grown Oxide under Thermal Cycling Loadings, Using XRD and Raman Spectroscopy — Correlations with Microstructural States
p.890
p.890
Determination of Stress Fields and Identification of Thermomechanical Parameters in a Thermally Grown Oxide under Thermal Cycling Loadings, Using Advanced Models
p.896
p.896
Influence of Interlayer Macrostress on Oxidation of Shell Tubes from Zr-Based Alloys
p.902
p.902
Influence of Surface Mechanical Attrition Treatment (SMAT) on Oxidation Behavior of 316L Stainless Steel at 650°C
p.906
p.906
Influence of the Residual Stresses Induced by Shot-Peening on the Oxidation of Zr Plates
p.912
p.912
Residual Stress Study in Oxide Scale Obtained on High Temperature Oxidation of AISI 430 Stainless Steel
p.918
p.918
Determination of Stress Fields and Identification of Thermomechanical Parameters in a Thermally Grown Oxide under Thermal Cycling Loadings, Using Advanced Models
Abstract:
The presence of residual stresses in thermal oxide layers has been recognized for a long time. In the present work, the mechanical fields for chromium oxide are investigated. An extended model is established to take into account the effects of temperature and thermal cycling for the calculation of oxide stress. Numerical results are given in order to predict the influence of different parameters, especially the dependence of some material parameters with temperature. This enables to make comparison with experimental results.
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Periodical:
Advanced Materials Research (Volume 996)
Pages:
896-901
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Online since:
August 2014
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