论文信息 - Finite element analysis of thermal residual stresses at graded ceramic‐metal interfaces. Part I. Model description and geometrical effects

Finite element analysis of thermal residual stresses at graded ceramic‐metal interfaces. Part I. Model description and geometrical effects

An elastic‐plastic finite element method numerical model has been formulated to study residual stresses developed at graded ceramic‐metal interfaces during cooling. The results were compared with those obtained for sharp (nongraded) interfaces to assess the potential for achieving residual stress reductions. Analyses were conducted for various axisymmetric cylindrical specimen geometries relevant to structural joining, coating, and thick film applications. The graded microstructure was treated as a series of perfectly bonded layers, each having slightly different properties. Constitutive relations for the interlayers were estimated using a modified rule‐of‐mixtures approximation, and strain and stress distributions were calculated for simulated cooling from an assumed fabrication temperature. The results demonstrate the importance of accounting for plasticity when comparing graded and nongraded interfaces. Significant geometrical effects on peak stresses were observed in the graded materials. It is shown ...

Richard L. Williamson | J. T. Drake | B. H. Rabin | R. Williamson | B. Rabin

[1] S. M. Hu,et al. Stress‐related problems in silicon technology , 1991 .

[2] Y. S. Touloukian. Thermophysical properties of matter , 1970 .

[3] A. Inoue,et al. Production of compositionally gradient Al‐AlN films by reactive sputtering and their mechanical and electrical properties , 1992 .

[4] A. Yerokhin,et al. Stress analysis and failure possibility assessment of multilayer physically vapour deposited coatings , 1992 .

[5] W. Betteridge. Nickel and its alloys , 1977 .

[6] A. Evans,et al. Residual Stresses in Meta/Ceramic Bonded Strips , 1985 .

[7] J. C. Conway,et al. Effect of Joint Thickness and Residual Stresses on the Properties of Ceramic Adhesive Joints: II, Experimental Results , 1987 .

[8] C. Chiu. Residual stresses in ceramic coatings as determined from the curvature of a coated strip , 1992 .

[9] M. Thouless. Cracking and delamination of coatings , 1991 .

[10] S. M. Hu,et al. Film‐edge‐induced stress in substrates , 1979 .

[11] Ivar E. Reimanis,et al. The fracture resistance of a model metal/ceramic interface , 1991 .

[12] Ralph J. Hecht,et al. The durability and performance of coatings in gas turbine and diesel engines , 1987 .