The microstructural evolution and characterization of discontinuous precipitates in a Cu-4.3 Ni-2.2 Si (in at.%) alloy were studied, and compared with those of continuous precipitates in the same alloy. During prolonged aging, coarse cellular components containing fiber-shaped delta-Ni2Si and copper solid-solution phases nucleate and grow quickly but discontinuously at the grain boundaries, accompanied by the consumption of fine delta-Ni2Si particles formed by continuous precipitation. In terms of the crystal structure, all the precipitates are of the same type of orthorhombic delta-Ni2Si. However, in terms of the crystallographic features, the delta-Ni2Si discontinuous precipitates have micro-scale fibers that are aligned with the orientation relationship of (100)(delta)//(110)(Cu) and (013)delta//(1 (1) over bar1)(Cu), and with a preferential extending direction on the (111)(Cu), plane, which differs from the fine delta-Ni2Si continuous precipitates at the early stages of aging. The evolution of the discontinuous precipitates can be explained by the existing classical theories of phase transformation, as discussed by Hu et al. regarding the subsequence of the continuous precipitates. In this study, we also confirmed that the development of coarse delta-Ni2Si discontinuous precipitates of the cellular components leads to a serious drop in the strength in the later stages of aging. (C) 2016 Elsevier Inc. All rights reserved.