Characterization of the Low Molar Ratio Urea⁻Formaldehyde Resin with 13C NMR and ESI⁻MS: Negative Effects of the Post-Added Urea on the Urea⁻Formaldehyde Polymers.

Hui Wang,Ming Cao,Guanben Du,Xiaojian Zhou,Long Yang,Taohong Li,Zhigang Duan

doi:10.3390/polym10060602

Hui Wang, Ming Cao + Show 5 more

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https://doi.org/10.3390/polym10060602

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Journal: Polymers	Publication Date: May 31, 2018
Citations: 46	License type: CC BY 4.0

Affiliation: Southwest Forestry University

Abstract

The structural changes during three-step synthesis of low-molar ratio urea–formaldehyde (UF) resin were tracked by quantitative 13C nuclear magnetic resonance (13C NMR) analysis and electrospray ionization-mass spectrometry (ESI–MS). Condensations that produced polymers were found to be linked by ether bonds in addition to hydroxymethylation reactions at the first alkaline stage with a formaldehyde to urea ratio of 2:1. Considerable formation of branched methylene linkages, with the highest content among all the condensed structures, was the key feature of the acidic stage. Notable changes were observed for the chemical structures and molecular masses of the resin components after the formaldehyde to urea molar ratio was lowered to 1.2 by adding post-urea at the final alkaline stage. Specifically, most of the branched hydroxymethyl groups on the polymers were cleaved, resulting in a significant decrease in the branching degree of the polymers. The performance degradation of the UF resin was attributed to this debranching effect and the production of components with low molecular masses. Based on the observations, the curing pattern of low molar ratio UF resin was postulated and branched polymeric formaldehyde catcher bearing urea-reactivity was proposed.

Highlights

Urea–formaldehyde (UF) resin has been the most important wood adhesive resin during the past century due to its good performance and low manufacturing cost
The 13 C NMR spectra for UF1–UF5 are shown in Figures 1–5, respectively
The quantitative 13 C NMR results for UF-1 in Table 1 show that 27% formaldehyde was converted to different methylene ether carbons

Summary

Introduction

Urea–formaldehyde (UF) resin has been the most important wood adhesive resin during the past century due to its good performance and low manufacturing cost. Formaldehyde emissions from the wood-based panel products has been challenging its applications. To address the formaldehyde emission problem, the molar ratio of formaldehyde to urea has been lowered to. Formaldehyde emission levels have been significantly lowered, but as a result, the performance of the resin has been largely sacrificed, especially the water resistance performance. Urea-formaldehyde reactions are performed under alkaline conditions at a molar ratio of F/U = 1.8–2.5. In this stage, hydroxymethylation is believed to be the dominant reaction that produces mono-, di-, and tri-hydroxymethylureas. The pH is adjusted to Polymers 2018, 10, 602; doi:10.3390/polym10060602 www.mdpi.com/journal/polymers

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