An evaluation of the three-dimensional geometric shape of moulded bra cups |
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| Authors: | K L Yick L Wu J Yip S P Ng W Yu |
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| Institution: | (1) School of Mechanical and Production Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore, 639798, Singapore; |
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| Abstract: | Bra cup moulding is currently a remarkable process in the production of seamless intimate apparel. The process is highly complex,
time-consuming and error-prone due to the large variations of foam and lamination properties, cup styles and sizes, and geometric
features of graduated padding. In particular, the three-dimensional (3D) geometric shape of foam cups is difficult to assess
accurately because they are very soft and readily deform. In cases that involve fitting problems, shape modifications of the
mould head and determination of the optimal moulding conditions have undergone repeated trials and errors. There is limited
knowledge about the effects of foam properties and cup parameters in the controlling of moulding conditions. This study adopts
a parameterization-based remesh algorithm method to evaluate the 3D shapes of the convex surface of scanned cup samples. The
shape conformity of the cup is quantified in accordance to the corresponding mould head. In this respect, the moulding conditions
that would achieve the most desirable geometric shapes of bra cups can be accurately and objectively demonstrated. Based on
moulding experiments with 6 types of polyurethane (PU) foam materials, empirical equations that associate the cup shape conformity
and the shape deviations from selected cup sectional curves are established. Through the use of non-linear regression models,
the shape conformity of the moulded cups can be predicted by moulding conditions with reasonable accuracy. The shape conformity
provides effective guidelines for quality assurance and improves production efficiency of bra cup moulding. Moreover, thermal-mechanical
properties, such as compressive strain and softening temperature obtained from thermomechanical analysis (TMA) scans, provide
a good understanding of cup shape conformity and determine the lowest moulding temperature at initial trails of the bra cup
moulding process. Surprisingly, in pliable foams, the cup size does not have an apparent effect on the moulding conditions
to achieve optimal cup shape conformity. The results reveal that the moulding conditions for sizes 34B and 34D could remain
the same for pliable foam materials. Nevertheless, in the case of more rigid foams, a higher moulding temperature is required
to achieve a desirable cup shape for size 34D as more energy is required for the heat-setting of foam materials with higher
proportions of hard segments at the moulding of a larger cup size in anticipation of larger deformations. |
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