An analysis of thermal residual stresses in Ti-6-4 alloy reinforced with SiC and Al2O3 fibres

[1]  S. Nutt,et al.  Thermally and mechanically induced residual strains in Al-SiC composites , 1992 .

[2]  A. Krawitz,et al.  Measurement of residual and applied stress using neutron diffraction , 1992 .

[3]  J. S. Ahearn,et al.  Interfacial reactions in Ti/SiC layered films with and without thin diffusion barriers , 1990 .

[4]  S. Majumdar,et al.  Determinations of Residual Thermal Stresses in a SiC‐Al2O3 Composite Using Neutron Diffraction , 1988 .

[5]  Hideo Takamizawa,et al.  Development and Microstructural Characterization of High‐Thermal‐Conductivity Aluminum Nitride Ceramics , 1988 .

[6]  D. Parks,et al.  Thermo-viscoplastic residual stresses in metal matrix composites , 1988 .

[7]  N. Stoloff,et al.  Effect of the filament nature on fatigue crack growth in titanium based composites reinforced by boron, B(B4C) and SiC filaments , 1986 .

[8]  R. Pailler,et al.  SiC filament/titanium matrix composites regarded as model composites , 1984 .

[9]  S. Yoda,et al.  Thermal cycling-induced deformation of fibrous composites with particular reference to the tungsten-copper system , 1978 .

[10]  G. Garmong Elastic-plastic analysis of deformation induced by thermal stress in eutectic composites: III. thermal-cycling damage , 1974, Metallurgical and Materials Transactions B.

[11]  D. Koss Deformation of Nb-W single crystals: Athermal solid solution strengthening , 1971 .

[12]  G. Chadwick,et al.  Thermal stresses in fibre reinforced composites , 1969 .

[13]  A. Metcalfe Interaction and Fracture of Titanium-Boron Composites , 1967 .