Tailoring the performance of nanocellulose-based multilayer-barrier paperboard using biodegradable-thermoplastics, pigments, and plasticizers

Abstract: In this work a multilayer barrier paperboard was produced in a roll-to-roll process by slot-die coating of nanocellulose (microfibrillated cellulose or carboxymethylated cellulose nanofibrils) followed by extrusion coating of biodegradable thermoplastics (polylactic acid, polybutylene adipate terephthalate and polybutylene succinate). Hyperplaty kaolin pigments were blended in different ratios into nanocellulose to tailor the barrier properties of the multilayer structure and to study their influence on adhesi… Show more

“…In order to improve the service life and nighttime reflectivity of road markings, coarse aggregate and glass beads are added to the thermoplastic coating [39]. The surface of markings constructed with this coating is rough, and it has a high porosity, making it easy for pollutants to adhere to the gaps [23].…”

Research on the Anti-Fouling Properties of Double-Coated Road Markings

“…In order to improve the service life and nighttime reflectivity of road markings, coarse aggregate and glass beads are added to the thermoplastic coating [39]. The surface of markings constructed with this coating is rough, and it has a high porosity, making it easy for pollutants to adhere to the gaps [23].…”

Research on the Anti-Fouling Properties of Double-Coated Road Markings

Lignocellulosic bioplastics in sustainable packaging – Recent developments in materials design and processing: A comprehensive review