Wood Products Protection Stories
FWRC Researchers Seek to Improve Standards in Wood Coating Evaluations
A team of FWRC scientists led by Dr. Beth Stokes, associate professor in the sustainable bioproducts, department, conducted a study of five (narrowed down from 39) consistently performing cross-laminated timber (CLT) coatings. During the study, the team found that visually assessing the boards' deterioration was challenging because of the high number of visual standards and the subjectivity of assessing color, which is the strongest indicator of coating degradation. To address this problem, the team built an artificial intelligence model to better predict changes in the boards' color over time. This model proved to be 95% accurate at predicting color change. The team found that transparent, water-based, alkyd/acrylic resin performed the best in terms of mold and fungus control.
Life of a Wooden Crosstie
Through harsh conditions, the backbone of the rails is built to last. But just how long should wooden crossties carry the load? Researchers from the Forest and Wildlife Research Center and the Railway Tie Association have set out to determine how durable railroad ties are by exposing them to different conditions and preservatives. Dr. Beth Stokes, associate professor in the Department of Sustainable Bioproducts, and her team, are analyzing railway ties made of different wood species treated with different protective systems over the course of several years. The ties are placed on a prepared surface where they are subjected to any weather conditions that occur during the length of the test including rain, wind damage, high humidity, snow, and ice.
These studies will go on for up to 20 years, each tie being checked twice a year, so the team can learn how long-lasting the resources are, and how they can be best used. This research is funded by the Railway Tie Association and member companies of the Southern Pressure Treaters’ Association.
FWRC scientists in the Department of Sustainable Bioproducts researched how tannins found in pine bark can protect wood against termites. They extracted tannins using different water and methanol solutions that were rich in antioxidants and found that they helped deter both termite activity and wood decay. The scientists found that mixing tannins with borates, a kind of salt, acted as a wood preservative yet was ineffective for fixing borates in the wood through water-soluble solutions. They continued the research to explore ways that tannins can fix the borates into the wood to provide enhanced protection, since tannins have preservation properties. The goals of the research resulted in ways to develop low toxic wood preservation systems that expand the longevity of wood exposed to elements, help dimensional stability, and accomplish all these things while maintaining low costs.