Electroless Ni(P) has been widely used for under bump metallization (UBM) of flip chip and surface finish layer in microelectronic packaging because of its excellent solderability, corrosion resistance, uniformity, selective deposition without photo-lithography, and also good diffusion barrier. However, the brittle fracture at solder joints and the spatting of intermetallic compound (IMC) associated with electroless Ni(P) are critical issues for its successful applications. In the present study, the mechanism of IMC spatting and microstructure change of the Ni(P) film were investigated with varying P content in the Ni(P) film (4.6,9, and 13 wt.%P). A reaction between Sn penetrated through the channels among Ni₃Sn₄ IMCs and the P-rich layer (Ni₃P) of the Ni(P) film formed a Ni₃SnP layer. Thickening of the Ni₃SnP layer led to Ni₃Sn₄ spatting. After Ni₃Sn₄ spatting, the Ni(P) film directly contacted the molten solder and the Ni₃P phase further transformed into a Ni₂P phase. During the crystallization process, some cracks formed in the Ni(P) film to release tensile stress accumulated from volume shrinkage of the film.