DENKENDORF — May 7, 2018 — Excellent edge definition, good color fastness and soft feel — this is what the optimum result looks like for inkjet printing on textiles. But it’s not a trivial matter to meet these demands and bring them together. The German Institute of Textile and Fiber Research (DITF) in Denkendorf have taken on this task and developed a chemical product preparation for inkjet printing.
The market does already offer a large range of binding agents and pretreatment chemicals, which are suitable for modifying the surface of the textile printing substrate and improving them for inkjet printing. It has been difficult however, for targeted improvements to the digital printing results to be achieved due to the wide range of available chemical additives, each with their own mode of action.
Screening of the potentially applicable chemicals allowed particularly suitable substances to be identified. In the new phase, these chemicals were set in the optimum manner in terms of their use as preparatory chemicals for inkjet printing. When doing so, both the concentrations and mixing ratios of the individual components were adjusted. Here, an especially important step was the adjustment of the flow properties, so that the chemical ingredients were not too runny nor too viscous for application to the textiles.
The next step was focused on the setting of the process parameters for the application of the pretreatment chemicals. The quantity of the applied chemicals, the type of application and the adaptation of intermediate drying phases — all of these process steps ultimately influence the printing result. The optimization was done separately for different application processes, such as Foulard, screen printing or inkjet printing.
The pigment inks used within the research project are an in-house development from DITF: Fine-particle pigment dispersions are manufactured from organic color pigments. The addition of binding agents allows good adhesion of the pigments on the textile
substrate. And the addition of additives to the mixture allows additional properties of the pigment inks such as their hygroscopic or rheological properties to be influenced.
In conjunction with the selected pretreatment chemicals, the pigment inks enable excellent printing results. Test prints on cotton substrates showed excellent contour qualities, color fastness and high color depths.
Posted May 7, 2018
Source: The German Institute of Textile and Fiber Research (DITF)