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The chemical structure of amino adhesives produced by the strongly acid process was investigated by 13 C Nuclear Magnetic Resonance spectroscopy. This technique allowed the identification of functional groups and its quantitative determination. Concentration of cyclic polymeric structures (urons) was shown to be related with adhesive performance and with particleboard physicomechanical properties and formaldehyde content. Higher urons concentration presented lower viscosity and reactivity. Particleboards produced with resins with lower urons concentration presented lower formaldehyde content, but also lower internal bond strength. Wood-based panels produced fulfilled E1 class requirements for formaldehyde emissions, indicating that strongly acid process is an alternative to the conventional alkaline-acid process.

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The role of sucrose in amino polymers synthesized by the strongly acid process

Costa

Pereira

Ferra³

et al. 2013

Journal of Adhesion Science and Technology

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Nuno Costa

Scavengers for achieving zero formaldehyde emission of wood-based panels

Alternative to latent catalysts for curing UF resins used in the production of low formaldehyde emission wood-based panels

¹³C NMR study of presence of uron structures in amino adhesives and relation with wood‐based panels performance

The role of sucrose in amino polymers synthesized by the strongly acid process

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About

Nuno Costa

Scavengers for achieving zero formaldehyde emission of wood-based panels

Alternative to latent catalysts for curing UF resins used in the production of low formaldehyde emission wood-based panels

13C NMR study of presence of uron structures in amino adhesives and relation with wood‐based panels performance

The role of sucrose in amino polymers synthesized by the strongly acid process

Contact Info

Product

Resources

About

¹³C NMR study of presence of uron structures in amino adhesives and relation with wood‐based panels performance