Bart Reuvers scite author profile

Limonene-derived polycarbonate-based alkyd resins (ARs) have been prepared by copolymerization of limonene dioxide with CO 2 , catalysed by a -diiminate zinc-bis(trimethylsilyl)amido complex, and subsequent chemical modification with soybean oil fatty acids using triphenylethylphosphonium bromide as the catalyst. This quantitative partial modification was realized via epoxy-carboxylic acid chemistry, affording ARs with higher oil lengths, lower polydispersities and higher glass transition temperatures (T g ) in comparison to a conventional polyester AR based on phthalic acid, multifunctional polyol pentaerythritol and soybean fatty acid. The novel limonene polycarbonate AR and the conventional polyester AR were evaluated as coatings and both the physical drying (without the presence of the oxidative drying accelerator Borchi ® Oxy Coat) and chemical curing (with Borchi ® Oxy Coat) processes of these coatings were monitored by measuring the König hardness and complex modulus development with time. A better performance was obtained for the alkyd paint containing polycarbonates modified with fatty acids (FA-PCs), which showed a faster chemical drying, a higher König hardness and a higher T g in coating evaluation, demonstrating that the fully renewable FA-PCs are promising resins for alkyd paint applications.

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Sustainable, rigid imide building blocks as promising substitutes for phthalic anhydride in alkyd resins

Hayden¹,

Papegaaij²,

Reuvers³

et al. 2020

Polymer International

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New, highly rigid bio-based building blocks were synthesized from renewable raw materials. In a first reaction step, an imide was made from citraconic anhydride and the amino acid glycine. This imide was subsequently reacted with sorbic acid using Diels-Alder chemistry, furnishing a double-ring structure. This new, very rigid renewable building block was then incorporated into alkyd resins by standard polycondensation chemistry and technology. The resulting, >80 wt% renewable, alkyd resins were evaluated as white paints in a preliminary way by solvent casting from xylene. The properties of the renewable coatings look promising, some even outperforming those of standard commercial alkyd resins. For further enhancing the sustainability of the systems discussed, turning these highly bio-based alkyd resins into stable aqueous emulsions is a must.

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The role of sag control agents in optimizing the sag/leveling balance and a new powerful tool to study this

Bosma

Brinkhuis²,

Coopmans

et al. 2006

Progress in Organic Coatings

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Film formation from monodisperse acrylic latices

Zohrehvand

Cai

Reuvers

et al. 2005

Journal of Colloid and Interface Science

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Bart Reuvers

Novel renewable alkyd resins based on imide structures

Fully renewable limonene‐derived polycarbonate as a high‐performance alkyd resin

Sustainable, rigid imide building blocks as promising substitutes for phthalic anhydride in alkyd resins

The role of sag control agents in optimizing the sag/leveling balance and a new powerful tool to study this

Film formation from monodisperse acrylic latices

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