The hitting sound of golf clubs is one of key important factor for consumers to choose their clubs. The impact sound of clubs is known being related to structural parameters and, most importantly, vibration modal characteristics. Since the design analysis and experimental measurement are complicated and involved many steps of operations, the integration of analysis and measurement data was developed for fast post-processing and beneficial to design engineers. This work will extend the current semi-analytical and semi-experimental approach in predicting the golf club impact sound and propose analytical approaches by applying VL-ACOUSTICS software. The good sound quality characteristics will be calibrated to suit the need of golf clubs. The new developed sound prediction methods is validated and integrated with the good sound properties requirement. The sound quality base club head design is presented and needed to perform further verification between analytical and experimental results for sound quality indices. This work will establishes the good sound quality spectrum for golf club, the sound radiation prediction methods and the reverse engineering design analysis technique base on the good sound properties. And therefore, in the design stage engineers can predict the golf club sound and virtually hear the sound to judge the sound quality. The proposed methodology can be effective in the design stage and beneficial to reduce time in design modification and cost in repeatedly making prototypes.