Search

Baerolubÿ TM AIDPFAS?free PPA Replacement, 24FlexPack Conference

Roll Cleaning and Web Cleaning to Reduce Defects in Film Production, 24FlexPack Conference

High Barrier Mono-material Polyethylene Structures using Coating, 24FlexPack Conference

Recycle Ready: new technical developments to push forward sustainable packaging, 24FlexPack Conference

PLANTICTM Sustainable Barrier, 24FlexPack Conference

Closing the Loop While Closing Perfrmance Gaps: Advancements in Mono-material, Multilayer Film Solutions, 24FlexPack Conference

Recycling Multilayer Plastic Packaging by Solvent-Targeted Recovery and Precipitation, 24FlexPack Conference

Sustainable Flexible Packaging Materials using Microlayer and Nanolayer Coextrusion Process, 24FlexPack Conference

Editorial: Special issue showcases new additive approaches for a lignocellulose-based future, TAPPI Journal January 2024

ABSTRACT: Lignocellulose-derived materials are inherently renewable and are of benefit not only through their recyclability and biodegradability, but also from carbon sequestration during the production of the base raw material. With regulatory agencies tightening restrictions and consumer habits slowly shifting, the paper industry is well positioned to fill a market need for renewable bio-based materials. Although the inherent benefits of lignocellulose-based products are many, all too often, the end-product does not meet the required performance or cost in use desired by end-users. This creates obstacles for a more renewable economy that relies less on petroleum-derived products.

Next generation dry strength additives: Leveraging on-site synthesis to develop high performance glyoxalated polyacrylamides, TAPPI Journal January 2024

ABSTRACT: Although glyoxalated polyacrylamides (gPAMs) have been described since the 1950s, the freedom to design new materials based on this chemistry has been limited by practical concerns; namely, a balance between solution concentration and material characteristics must be met to make the economics of gPAM strength additives work for the paper industry. For traditional “delivered” gPAMs, only a very narrow range of polyacrylamide molecular weights and compositions could be considered for glyoxalation. However, the development and successful implementation of automated reactor equipment that allows for the synthesis of gPAMs from glyoxal and polyacrylamide copolymers at the mill, known as “on-site” glyoxalation, obviates the shipping and stability concerns that have traditionally held back gPAM development. As such, on-site generators represent a platform that enables the glyoxalation of materials that would otherwise not have been suitable for use in a traditionally delivered gPAM product. These on-site generators therefore open new avenues for polymer design to allow for the creation of the next generation of strength additives. By leveraging the synthetic freedom of the on-site generators, a suite of high performance gPAMs has been designed, yielding materials that provide both exceptional strength and drainage performance in poor quality furnishes.