Non-staining resistance to dyes and odors of synthetic leathers composed of polyurethane resins with different glass transition temperatures

Abstract

The objective of this study was to develop a highly durable synthetic leather with excellent resistance to light discoloration and deterioration without the use of fluorine or silicon and a surface that is resistant to dyes and odors. Environment-friendly biomass feedstock was used as the reaction component. Firstly, polyurethane (PU) resins with varying glass transition temperatures ( Tg) were synthesized. Subsequently, these were used as surface treatment agents for synthetic leather, and the relationship between the non-staining performance of the PU resin and the Tg values was discussed. In addition, the physical durability over time was investigated. The non-staining performance of the synthetic leather surface against dyed clothing and the odor of ammonia evidently depended on the Tg of the PU resin used as the surface treatment agent. The Tg range that is the most convenient for practical purposes, and the related best light discoloration and degradation resistance and bending resistance, were confirmed, and serve as indicators that the material can be used as a highly durable interior material.