In this work, a 3D computer aided designing (CAD) system is developed for solid modeling and visual simulation of warp knitted structures on Silicon Graphics workstations. In the first part, a three-dimensional cylindrical and uniform solid yarn model is developed, such that its central axis is a space curve, using non-uniform rational B-spline (NURBS) surfaces to achieve a true 3D solid representation of warp knit loops and structures. This yarn model is then used to create single warp knit loops and fabrics. The necessary data for empirical loop models are obtained from experimental work. This paper describes the methodology and mathematics used to create the yarn and loop models. Some examples of warp knit fabrics are generated on a computer using the empirical loop models, and these images are compared with real warp knit fabric pictures for visual evaluation.The general aim of CAD systems is to provide fast, easy designing and realistic simulation of structures on a computer screen to enable manufacturers to assess their designs before actual knitting. However, even the recent computer aided design (CAD) systems and simulation programs in warp knitting can only provide two-dimensional representations of warp knit structures [ 1, 2, 3, 11, 12, 14, 1 S, 19], This presentation is limited from the perspective of a designer and customer, since fabrics are neither pictures nor drawings. Besides, designers and customers want to predict comfort, drape, and handling characteristics of the fabrics as well as the aesthetic aspects of the design. Therefore, most of them still prefer to make their decisions by seeing physical samples rather than 2D computer images. If three dimensional models can be created on the computer screen, however, designers and customers will have much more realistic and adequate representation of structures. This will also enable them to manipulate the models (e.g., zooming, rotating, scaling, etc.) and consider other aspects of fabrics as well as aesthetic ones. In fact, there is a general trend toward three-dimensional modeling in all fields that parallels advances in computing hardware and software. However, applying 3D modeling concepts to textiles is an even more difficult task than in other fields due to the complexity of the structures.
Yam Model NURBS CURVES AND SURFACESIn this work, a yam is represented in two different forms, a simple form and a solid form. In the simple form, a yam is represented by some 3D space curves, specifically cubic non-uniform B-spline (NURBS) curves. A spline curve is a continuous curve that is composed of several polynomial segments [5]. The parametric equations of a cubic curve have the following form (Figure 1 a): FIGURE 1. Mapping a parametric curve (a) and surface (b) to object space [5].
