Aude Lapprand scite author profile

The reactions between two polyisocyanates, 4,4'-methylenebis(phenyl isocyanate) (MDI) and trimer of isophorone diisocyanate (tIPDI) and a model aryl-alkyl diurethane were carried out at high temperature (≥ 170°C) and several NCO/urethane ratios. A combination of 1 H & 13 C NMR and MALDI-TOF spectroscopies was used and allows the identification of reaction products. When MDI or tIPDI is reacted with a diurethane at high temperature and after cooled, allophanates are formed but no isocyanurates. 13 C NMR was used to quantify the different reaction products obtained under different experimental conditions. Only a few allophanates (≤ 10%) are obtained after 1h of reaction.

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Synthesis and properties of self‐crosslinkable thermoplastic polyurethanes

Lapprand

Méchin

Pascault

2007

J of Applied Polymer Sci

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ABSTRACT:The chemical modification of a thermoplastic polyurethane (TPU) has been realized by the grafting of polyisocyanates onto urethane groups through allophanate bonds to prepare self-crosslinkable but still thermoplastic materials. Because of the lateral isocyanate groups, the resulting polymer can be easily crosslinked by the ambient moisture. However, because of the highly viscous character of the TPU even at a high temperature, this chemical reaction must be performed with a twin-screw extruder above 1908C. The ability of linear, segmented TPUs to undergo physical (micro)structuration that strongly depends on their thermal history has been widely described in the literature, and these transformations usually occur in the same temperature range as that used for performing our chemical reactions. Moreover, the thermally reversible character of urethane and allophanate bonds above $ 1708C is also well-known. Therefore, the precise characterization of the thermomechanical properties of the initial and modified materials is quite delicate because microstructural phenomena and chemical rearrangements can compete and always have to be considered simultaneously. Considering these restrictions, we have nevertheless demonstrated that the structural transformation is faster than crosslinking for a partially crosslinked TPU, but microphase separation is no longer possible for a TPU with a gel fraction higher than 50%. The chemical crosslinks of the modified TPU are reversible, but they still allow an important increase in the thermomechanical properties at a high temperature.

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Epoxy resins modified with poly(vinyl acetate)

Lapprand

Arribas

Salom

et al. 2003

Journal of Materials Processing Technology

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Aude Lapprand

Reactivity of isocyanates with urethanes: Conditions for allophanate formation

Synthesis and properties of self‐crosslinkable thermoplastic polyurethanes

Epoxy resins modified with poly(vinyl acetate)

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