Читать книгу Interface of Ceramic-Matrix Composites - Longbiao Li - Страница 4

1 Chapter 1Figure 1.1 The tensile stress–strain curves of monolithic ceramics and fiber...Figure 1.2 Typical tensile stress–strain behavior of Prepreg‐MI SiC/SiC comp...

2 Chapter 2Figure 2.1 (a) The first matrix cracking stress versus the interface shear s...Figure 2.2 (a) The first matrix cracking stress versus the interface debondi...Figure 2.3 (a) The matrix cracking density versus the applied stress curves;...Figure 2.4 (a) The matrix cracking density versus the applied stress curves;...Figure 2.5 (a) The initial interface debonding stress and complete interface...Figure 2.6 (a) The initial interface debonding stress and complete interface...Figure 2.7 (a) The experimental and predicted first matrix cracking stress v...Figure 2.8 (a) The experimental and predicted first matrix cracking stress v...Figure 2.9 (a) The experimental and predicted matrix cracking density versus...Figure 2.10 (a) The experimental and predicted matrix cracking density versu...Figure 2.11 The experimental and predicted hysteresis loops of 2D Sylramic^™...Figure 2.12 The experimental and predicted fatigue hysteresis loops of 2D Ty...Figure 2.13 (a) The experimental and predicted fatigue hysteresis loops of 2...Figure 2.14 (a) The experimental and predicted fatigue hysteresis loops of 2...Figure 2.15 The unit cell of shear‐lag model.Figure 2.16 The effect of pre‐exposure temperature on (a) the tensile stress...Figure 2.17 The effect of pre‐exposure time on (a) the tensile stress–strain...Figure 2.18 The effect of the interface shear stress on (a) the tensile stre...Figure 2.19 The effect of the fiber strength on (a) the tensile stress–strai...Figure 2.20 The effect of the fiber Weibull modulus on (a) the tensile stres...Figure 2.21 (a) The experimental and predicted tensile stress–strain curves;...Figure 2.22 (a) The experimental and predicted tensile stress–strain curves;...Figure 2.23 (a) The experimental and predicted tensile stress–strain curves;...Figure 2.24 (a) The experimental and predicted tensile stress–strain curves;...Figure 2.25 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.26 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.27 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.28 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.29 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.30 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.31 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.32 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.33 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.34 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.35 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.36 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.37 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.38 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.39 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.40 (a) The interface shear stress versus applied cycles; (b) the br...Figure 2.41 (a) The interface shear stress versus applied cycles; (b) the br...

3 Chapter 3Figure 3.1 Interface slip upon (a) unloading; and (b) reloading.Figure 3.2 The fiber axial stress distribution of Case I upon (a) unloading;...Figure 3.3 The fiber axial stress distribution of Case II upon (a) unloading...Figure 3.4 The fiber axial stress distribution of Case III upon (a) unloadin...Figure 3.5 The fiber axial stress distribution of Case IV upon (a) unloading...Figure 3.6 (a) The fatigue hysteresis loops corresponding to different appli...Figure 3.7 (a) The fatigue hysteresis loops corresponding to different appli...Figure 3.8 (a) The fatigue hysteresis loops corresponding to different appli...Figure 3.9 (a) The fatigue hysteresis loops corresponding to different appli...Figure 3.10 (a) The fatigue hysteresis loops corresponding to different appl...Figure 3.11 (a) The fatigue hysteresis loops of different interface slip cas...Figure 3.12 The undamaged state and five damaged modes of cross‐ply ceramic ...Figure 3.13 (a) The fatigue hysteresis loops of different interface cases; (...Figure 3.14 (a) The fatigue hysteresis loops of different interface cases; (...Figure 3.15 (a) The fatigue hysteresis loops of matrix cracking mode 3, mode...Figure 3.16 (a) The fatigue hysteresis loops of different interface cases; (...Figure 3.17 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.18 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.19 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.20 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.21 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.22 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.23 The tensile fatigue life S–N curve of 2.5D C/SiC composite at ro...Figure 3.24 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.25 The tensile fatigue life S–N curve of 2.5D C/SiC composite at 80...Figure 3.26 (a) The experimental and predicted fatigue hysteresis loops; (b)...Figure 3.27 (a) The experimental and predicted fatigue hysteresis loops; (b)...

4 Chapter 4Figure 4.1 (a) The experimental fatigue hysteresis dissipated energy versus ...Figure 4.2 (a) The interface shear stress versus cycle number curve; and (b)...Figure 4.3 (a) The experimental fatigue hysteresis dissipated energy versus ...Figure 4.4 (a) The interface shear stress versus cycle number curve; and (b)...Figure 4.5 (a) The fatigue hysteresis dissipated energy versus cycle number ...Figure 4.6 (a) The interface shear stress versus cycle number curve; and (b)...Figure 4.7 (a) The interface shear stress versus cycle number curve; and (b)...Figure 4.8 (a) The interface shear stress versus cycle number curve; and (b)...Figure 4.9 (a) The experimental fatigue hysteresis dissipated energy versus ...Figure 4.10 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.11 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.12 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.13 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.14 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.15 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.16 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.17 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.18 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.19 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.20 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.21 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.22 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.23 (a) The experimental fatigue hysteresis dissipated energy versus...Figure 4.24 (a) The interface shear stress versus cycle number curve; and (b...Figure 4.25 The interface shear stress versus applied cycle number of unidir...Figure 4.26 The interface shear stress versus cycle number curves of C/SiC a...