The mixing sequence is of great importance when silane coupling agents are employed for improvement of reinforcement and tyre performances. Y-sequence mixing has the potential of making it possible to produce different compounds effectively by combining one silica master-batch with various carbon black masterbatches, provided that the compound's properties are not affected negatively compared to conventional mixing processes. We have, therefore, investigated the Y-sequence mixing in terms of various compound properties such as Mooney value, modulus, tensile strength, elongation at break, hardness and visco-elasticity, and compared the results with those obtained using multistep sequence mixing and the all-in-one approach. The results have showed that the compound properties from the Y-sequence mixing weresimilar to thoseobtained by the multistep sequence,and superior to the all-in-one mixing sequence. It is thus concluded that the Y-sequence mixing has potential as a more economical alternative to currently employed mixing processes.