Accelerated Polymerization of Ammonium Lignosulfonate from Loblolly Pine

Lignin bioproducts derived from pulping of woody biomass find utility in multiple industrial applications. Ammonium lignosulfonates have historically displayed unique polymerization characteristics relative to other lignin materials and show promise as sustainable adhesives for the panel industry. T...

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Veröffentlicht in:	Forest products journal 2020-03, Vol.70 (1), p.134-142
Hauptverfasser:	Narron, Robert, Wolken, Gregory, Gargulak, Jerry
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Sprache:	eng
Schlagworte:	Ammonium Analysis Biomass By-products Chemical properties Cooking Dissolved solids Forest products industry Gelation High temperature Industrial applications Lignin Lignosulfonates Loblolly pine Materials Mechanical properties Molecular weight Organic chemistry Pine trees Polymerization Priming Production capacity Pulping Rheological properties Rheology Software Sulfonation Temperature Thermal properties Viscosity Wood adhesives Wood pulping
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container_title	Forest products journal
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creator	Narron, Robert Wolken, Gregory Gargulak, Jerry
description	Lignin bioproducts derived from pulping of woody biomass find utility in multiple industrial applications. Ammonium lignosulfonates have historically displayed unique polymerization characteristics relative to other lignin materials and show promise as sustainable adhesives for the panel industry. To further understand the system's chemistry, polymerization reactions were observed through the lens of viscosity build-up using high temperature rheological measurements. It was found that highly controllable lignosulfonate properties like cooking temperature, pH, and percentage dissolved solids each significantly contribute to gelation behavior. The concept of thermal priming to shorten gelation time was also introduced and demonstrated. Finally, possible applications for this technology are postulated.
doi_str_mv	10.13073/FPJ-D-19-00044
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source	Allen Press Journals; EBSCOhost Business Source Complete; Alma/SFX Local Collection
subjects	Ammonium Analysis Biomass By-products Chemical properties Cooking Dissolved solids Forest products industry Gelation High temperature Industrial applications Lignin Lignosulfonates Loblolly pine Materials Mechanical properties Molecular weight Organic chemistry Pine trees Polymerization Priming Production capacity Pulping Rheological properties Rheology Software Sulfonation Temperature Thermal properties Viscosity Wood adhesives Wood pulping
title	Accelerated Polymerization of Ammonium Lignosulfonate from Loblolly Pine
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