Abstract
AbstractAnisotropic conductive adhesive film (ACF) as one kind of green and environmental protective interconnected material is widely used in electronic industry. Fully understanding of electrical characteristics of ACF particles can help to optimize the assembly process and improve the efficiency of ACF interconnection. The effects of the bonding parameters such as particle cracks, the deformation degree and the number of particles were considered to calculate the particle resistance. A mathematical model was used to predict the particle resistance of the nickel-coated polymer particle with the different deformation. The variability of the particle resistance under temperature load and the number of particles was also conducted. The particle resistance for different conditions was then obtained to compare with experiment, and the predicting results of the model were fit well with the experiments.KeywordsAnisotropic conductive adhesive films(ACF)particle resistancedeformation
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