A 13C-NMR analysis method for phenol–formaldehyde resin strength and formaldehyde emission

## SYNOPSIS A method based on the use of 13C NMR relative peak intensity ratios for different characteristic chemical groups, known or supposed to contribute to urea-formaldehyde ( UF ) resin strength and formaldehyde emission is presented. The method relates results obtained by 13C NMR analysis o

A method based on the use of W-NMR relative peak intensity ratios for chemical groups known to contribute to melamine-urea-formaldehyde (MUF) and melamine-formaldehyde (MF) resin strength and formaldehyde emission is presented. The method relates results obtained by 13C-NMR analysis of liquid MUF an

A method based on the use of "C-NMR relative peak intensity ratios for different characteristic chemical groups known or supposed to contribute to melamine-formaldehyde (MF) resins strength is presented. The method relates results obtained by NMR analysis of liquid MF resins with their strength in t

A method based on the use of '"C-NMR relative peak intensity ratios for different characteristic chemical groups, known or supposed to contribute to melamine-urea-formaldehyde (MUF) resin strength and formaldehyde emission, is presented. The method relates results obtained by '"C-NMR analysis of liq

The experimental time of 13 C-NMR quantitative analysis of phenol-formaldehyde resins was reduced so that quantitativeness was maintained. The quantitative spectra of 14 model resins were obtained using a gated decoupling technique suppressing the NOE. The paramagnetic additive, Cr(acac) 3 , was use