Effects of peening on magnetic-flux density in a metallic glass

Abstract

The change of the saturated magnetic‐flux density, B_s, with peening is studied for a Fe‐Ni‐Si‐B glass. The peened glass shows the large B_s. Taking the driving force of the peening to be the collision energy, a rate process theory is applied for the glass. The parameter of X [(B_s−B⁰_s)/(B^m_s−B⁰_s)] is used, where B^m_s and B⁰_s are B_s of the peened glass at an extremely long period of time and the minimum value of B_s, respectively. Based on the rate process, X is expressed by the following equation: log₁₀[−ln(1−X)]=n log₁₀ t+log₁₀ k. Bs approaches B^m_s with peening. B^m_s is 9.51 kG, when the correlation coefficient is maximum. The faster the cooling rate, the smaller the n and log k become. Thus, B_s can be obtained by controlling the cooling rate and peening time according to our discretion.