The crystallization processes of three clearly separated crystallization peaks of (Zr46Cu42Al7Y5)(95)Be-5 metallic glass, under non-isothermal condition, are studied using differential scanning calorimetry (DSC) technique. It was found that the crystallization processes of (Zr46Cu42Al7Y5)(95)Be-5 metallic glass represent the complex processes, where there are conversion regions with a constant value of the activation energy (E-alpha). The pre-exponential frequency A(alpha) was determined from the linear relation, known as the kinetic compensation effect. The invariant kinetic parameters (ln A(inv), E-alpha,E-inv) for the three crystallization processes were calculated, which is approximately the average values obtained by the Vyazovkin method in the considered interval. Finally, the master plots method was successfully utilized to determine the reaction model, and the best reaction models for describing the three crystallization kinetic processes are A2, A3/2 and A3/2, respectively. (c) 2013 Elsevier B.V. All rights reserved.