The mechanism of elementary redistrib utionand annealing embrittlement during relaxation Was discussed on the viewpoint ofthe activation energy of atomic diffusion in Ni-P amorphous being variables.

本文从非晶中原子扩散激活能可变化的观点出发，对弛豫过程中元素再分布和脆化机制进行了讨论。

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The conduction contributes to the high temperature dielectric relaxation which has the similar activation energy of that of conduction.

高温区介电弛豫的激活能与电导激活能十分接近，因此电导对高温介电弛豫的产生起到了关键作用。

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Moreover, the Nb and C raise greatly the peak temperature and also enable the activation energy of relaxation to increase markedly.

也使晶界峰温度大大升高和弛豫激活能显著变大。

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