The purpose of the paper is to construct reliability analysis of Solid oxide fuel cell under non-uniform temperature distribution. Because the operation of solid oxide fuel cell is based on complex electro-chemical reaction, it will generate thermal stress, thus the effect of the thermal stress on the life of fuel cell is the main part to analyze in this paper. Different from ductile material which has definitely yielding stress, we use the probability of failure instead of the allowable stress that fracture material can resist. We use weibull probability of failure as our probability function, but weibull function didn’t tell the relationship between the probability of failure and the time. In order to gain the failure -time relation, we derived the equivalent stress by using the stress intensity factor with the concept of slow crack growth, and substitute it into the weibull probability of failure to gain the failure-time relation graph. The equivalent stress is calculated from known stress state, in general, the temperature distribution is NOT uniform, in order to acquire the stress state, we use the Finite Element Method to construct the model of stress state under temperature that is non-uniform distribution, and using this stress state substituted into the weibull probability of failure to complete our goal, the time-dependent probability of failure.