A general method is proposed for stability analysis of nonlinear systems in critical cases for the purpose of revealing the inherent relationship between the critical mode (near critical mode) between the oscillation、bifurcation or loss of stability of engineering mechanical systems.

Since there have existed several models to describe the characteristics of HTS,such as perfect diamagnetic model、flux flow-creep model and critical state model, each has its advantages and disadvantages.

Three kinds of critical state models, such as Bean's model, Kim's model and Power model, are selected to analyze numerically the initial magnetic curve and hysteresis loop of Bi2223 high-T c superconductor, as an example, with a simple method.

Mechanical characteristics of structural loess under critical state;

Deformation characteristics and critical state of sand;

Strain localization of sand based on a state-dependent critical state model;

In this paper,we present a new kind of critical state model for high Tcsuperconductors at 4.

As a consequence vortex pinning may not be the correct mechanism for the intergranular critical state in Josephson-junction systems.

For the system is conservative,atoms never stop random oscillations in critical states instead of stopping automatically oscillations with damping effects.