Numerical simulation of mold filling water blown polyurethane foams: Effects of sequential pour

Author:

Hershey Christopher J1ORCID,Jayaraman K2

Affiliation:

1. Material Sciences and Technology Division, Oak Ridge National Laboratory, Oak Ridge, USA

2. Chemical Engineering and Materials Science Department, Michigan State University, East Lansing, USA

Abstract

Batch molding of polyurethane foams is a widely used processing technique to produce crosslinked cellular structures which form to the shape of the mold. For water-blown polyurethane foams, water is reacted to form gaseous carbon dioxide resulting in a foam which expands to fill the mold completely. Batch molding typically requires an operator to coat the surface of a mold, introducing a significant lag time during the filling stage where significant asymmetric volume change can occur. The purpose of this work is to show, through simulations, that this lag time is significant when predicting flow profiles and part quality. When the mold geometry is complex enough to force bifurcation of the flow, simulations incorporating various filling lag times predicted significantly different locations of knit or weld lines where the flow fronts meet. Current simulation techniques, which assume the filling stage occurs instantaneously, are unable to predict variations in weld line locations. The introduction of a lag time, referred to herein as sequential pour, was achieved through user-defined modules incorporated into Ansys Fluent software.

Publisher

SAGE Publications

Subject

Materials Chemistry,Polymers and Plastics,General Chemistry

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