Abstract
Simulation technology was developed for high precision molding of optical fiber connectors. Two simulation models regarding resign flow performance in the mold cavity were constructed and calculated. One is the calculation on resign flow performance around micro pins arrayed in the mold cavity. Prediction of the force to pins and their bending trend was made possible. Flow rate and cure extent of resign are affecting factors, and optimum flow rate is expected. Another is the calculation on resign flow performance including filler particles. Prediction of the particle distribution around micro pins was made possible. Larger particles are not tend to run behind micro pins, and non-uniform transcription properties is predicted.
