From Evonik’s perspective, the PUD process is especially interesting. It begins with the manufacture of an aqueous PU dispersion (PUD) with an approximately 50 percent proportion of polymer microparticles. The dispersion is foamed, and the foam mass is then spread onto the carrier at room temperature. The material is then dried within a few minutes at a temperature of 100°C, covered with the topcoat, and finished.

But so far this alternative, which is much more environmentally friendly, has only played a subordinate role in the market. One of the reasons for that is the inadequacy of the necessary process additives—surfactants and foam stabilizers—which are added to the production process in only small amounts but play a key role in determining the quality of the final product. The additives that are used most often today react sensitively to hard water, are incompatible with certain crosslinking agents, and migrate to the surface of the material, where they form unsightly spots or an unpleasant greasy film. In addition, the surfactants that have been used to date often result in very course foam structures and do not sufficiently stabilize this foam during the production process.

These are the issues that were addressed by the researchers at Evonik. They have now developed an additive that does not have any of these negative side effects, but instead offers additional advantages. “It optimizes the pore structure of the polymer, accelerates the production process, conserves energy, and lends the artificial leather the desired high quality,” explains Dr. Michael Klostermann, who is responsible for the technical product development of the new additive.

The new additive, which is being marketed as ORTEGOL^® P 1, is an organic non-ionic surfactant—a product group about which Evonik possesses extensive know-how. Among other things, organic non-ionic surfactants are used as highly effective emulsifiers for skin creams and lotions. Emulsifiers have functions that are very similar to those of surfactants: They disperse materials and stabilize one phase in another. This results in large surface areas that play a key role in determining the characteristics of the end product. Through ORTEGOL^® P 1, Evonik has now made the way in which these surfactants work usable for the production of artificial leather too.

The new additive is added to the PUD dispersion before the foaming process in quantities of just a few percent of the total mass. The function of the additive is to keep the foamed dispersion on the carrier stable until it has completely dried into a foam. That’s the only way to create the fine and uniform pores that make artificial leather soft, smooth, and supple. Tests carried out in cooperation with artificial leather manufacturers have shown that ORTEGOL^® P 1 is equal to this task. It stabilizes not only the individual air bubbles but also the continuous phase of the aqueous foam.

“The additive can do even more. During the production of artificial leather, it significantly improves the balance of energy, raw materials, and emissions,” says Dr. Kai-Oliver Feldmann, who is responsible for coordinating the contacts between product development and technical customer support. Compared with the DMF coagulation process, the new procedure saves producers about half of their energy consumption and also drastically reduces emissions. The new additive is based on renewable raw materials, and that’s a further advantage by comparison with DMF.

ORTEGOL^® P 1 has been produced in Duisburg since the end of 2017 and is already being used by the first group of customers in Germany and China. And P1 is only the beginning. Evonik is currently working to develop additional types of ORTEGOL^® P that enable customers to precisely adjust the pore size, density, and flow properties of the foam and thus determine the performance of their artificial leather. The aim is to ensure that the ORTEGOL^® P family can cover the entire spectrum of applications in the artificial leather market.

Evonik is launching the new additive on the market at a time when the artificial leather industry is changing and searching for alternatives. ORTEGOL^® P 1 is the first successfully tested candidate from a group of surfactants that make water-based processes practicable and environmentally friendly. As a result, Evonik is successfully addressing the requirements of manufacturers and consumers who set great store by high-quality artificial leather and also expect that its production will not harm people and the environment.

photos: Stephan Abry, Getty Images (5), Lyuby Burakova/stocksy.com, Graeme Montgomery/Trunk Archive, Dimitrij Tanaskovic/stocksy.com
Illustration: KNSKB+