This work is concerned with the microstructure evolution during high-temperature oxidation inside the cladding wall fabricated of Zr1Nb alloy. The kinetics of the alpha-Zr(O) growth in the temperature interval of 800-1200 degrees C has been assessed using LM. SEM, and an image analyzer. In addition, the results of nanohardness measurement were used to determine the thickness of the alpha-Zr(O) layer. Eventually, the experimental results were compared to analytical calculations. Very good agreement has been achieved between experimental and theoretical results, mainly for lower thicknesses. The paper also deals with the kinetics of oxide and (alpha + beta)-Zr layers. The oxide layer growth kinetics changes depending on temperature. The kinetics of the (alpha + beta)-Zr layer is independent of temperature and slightly faster when compared to the parabolic growth.

• 出版日期2011-9-30