The analysis focused on the effects of different specimen geometries(middle crack tension and central hole tension),different material work hardening models(linear-kinematic hardening and nonlinear-kinematic hardening), different loading conditions(constant amplitude cyclic loading,constant-K loading),and different stress ratios on crack opening/closing levels.

The constant-K loading makes more sense than the constant amplitude cyclic loading in distingui-shing the effects of load level and crack length on the PICC and offers a new idea to characterize crack growth behavior.

Multiaxial fatigue behavior of superalloy GH4169 was investigated by using the thin tubular multiaxial fatigue specimens under proportional and non-proportional loadings at high temperature.

Biaxial fatigue behaviors of the Zr-4 alloy under proportional and non-proportional loading with the phase angles of 30°, 60° and 90° were studied.

The deformation behavior of hydrided zircaloy-4 under tension-torsion proportional loading was investigated using the quantitative metallography and the finite element method(FEM).

This thesis focuses on physical layer adaptive transmission techniques, especially the key of adaptive algorithm in SC-FDE system -Bit-loading, which is based on similar algorithms in OFDM system.